VEHICLE BOAT LOADING DEVICE
An assembly for loading cargo on top of a vehicle includes at least one load bar oriented perpendicular to a pair of crossbars. The load bar is movable between stowed and loading positions in a direction parallel to the direction of vehicle travel. A rear end of the load bar is connected to a roller device for minimizing friction and avoiding contact with the vehicle when cargo is being elevated to the roof of the vehicle.
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This is a divisional application of Ser. No. 11/975,734 filed Oct. 19, 2007 which application claims priority to and incorporates by reference in their entirety for all purposes the following U.S. Provisional Patent Applications: Ser. No. 60/853,116 filed Oct. 20, 2006 and Ser. No. 60/958,475 filed Jul. 6, 2007.
BACKGROUNDTop-mounted vehicle racks provide a versatile platform for transporting bicycles, skis, snowboards, boats, cargo boxes, gear racks, and other items. Such racks typically include a pair of crossbars that extend side-to-side across the top of a vehicle. Each crossbar is supported on each side of the vehicle's roof by a tower, where the length of each crossbar and the distance between crossbars depend on factors such as the shape and size of the vehicle's roof. The towers supporting the rack crossbars are securely fastened to the vehicle to prevent the rack from slipping during use.
A typical top-mounted boat mount system includes two crossbars of the type described above, with supporting mounts of some type (e.g., a pair of saddles or J-shaped cradles) attached to the crossbars for supporting a boat, for example, a kayak or a canoe. After placing a boat on the mounts, the user then secures the boat to the rack by strapping it to both the cradles and the crossbars. However, placing the boat on the mounts may be cumbersome and difficult, and may result in damage to the vehicle, the boat, or injury to person(s) loading the boat.
A common method of placing a boat on a vehicle roof rack is for a user to lift the bow of the boat onto the rear mount from the rear of the car, and then to slide the boat forward. This method has the advantage of allowing the user to lift only one half of the boat at a time, but it has the disadvantage that the bow of the boat often touches the upper rear corner of the car, resulting in scratches or other damage either to the car or the boat. An additional problem with this method is that the boat may be difficult to slide on the rear mount, due to friction between the mount and the boat hull.
As shown in
Loading device 10 includes a pair of longitudinal load bars 18, 20, which distribute the any load placed on the loading device to the roof of the vehicle via crossbars 12, 14. Load bars 18, 20 may be attached to crossbars 12, 14 by any suitable mechanism, such as with front clamps 70 and/or rear clamps 50, which may be configured to accommodate crossbars of various cross-sectional shapes. Load bars 18, 20 may be attached to roller 40 via t-lugs 42. As shown in
Partial views of roller assembly 40 are depicted in
T-lugs 42 are adjustable along crossbar 41. This allows for placement of load bars 18 and 20 at various distances from one another, making loading device 10 compatible with a variety of vehicles and boat saddles. T-lugs 42 may be clamped to crossbar 41 via tamper-proof fasteners or bolts, to prevent theft.
Roller 40 may be adjustable between multiple positions, as shown in
As shown in
Support bars 18, 20 may be affixed to the cross bars using rear clamps 50 and front clamps 70. As shown in
Quick release clamp 66 may be disposed on upper tube member 62 of rear clamp 50 via a tightening device 68, as shown in
As shown in
Front clamp 70 may also include stop collar 86 coupled to load bar 18 or 20 to limit how far load bar 18 or 20 may slide towards the rear of the vehicle. Stop collar 86 may include a security mechanism, such as a tamper-proof screw for tightening stop collar 86 around load bar 18 or 20, making removal of roller 40 and/or other components of loading device 10 difficult, discouraging theft.
T-bolt 76 on front clamp 70 may be configured so that when upper member 82 receives load bar 18 or 20, t-bolt 76 cannot be rotated. This arrangement prevents loosening of clamp 70 when load bar 18 of 20 engages tube member 82.
The various jaws of rear clamps 50 and front clamps 70 may be adapted to accommodate variously-shaped cross beams. Such shapes may include circles, ellipses, squares, rectangles, factory default vehicle rack shapes, or any other shape found in cross beams sold by various manufacturers. The jaws may also include jagged edges, curves, high friction materials, etc., to improve their grip on crossbars.
Various alternative examples of loading devices may include only one longitudinal support bar, or may include two support bars configured differently from the embodiment described above and shown in
There are various alternative ways to facilitate forward and backward movement of roller 40 relative to the rear end of a vehicle. One approach is to equip each of load bars 18 and 20 with a telescoping device. Each load bar may have an outer tube secured in a constant position by crossbar clamps. A smaller diameter tube is then positioned concentrically in the outer tube and is moveable to adjust the effective overall length of the load bar. The position of the small tube relative to the outer tube may be locked by a clamp device located either in one of the crossbar clamps or in a separate clamp device.
Although the present disclosure has been provided with reference to the foregoing operational principles and embodiments, it will be apparent to those skilled in the art that various changes in form and detail may be made without departing from the spirit and scope of the disclosure. The present disclosure is intended to embrace all such alternatives, modifications and variances. Where the disclosure recites “a,” “a first,” or “another” element, or the equivalent thereof, it should be interpreted to include one or more such elements, neither requiring nor excluding two or more such elements. Furthermore, any aspect shown or described with reference to a particular embodiment should be interpreted to be compatible with any other embodiment, alternative, modification, or variance.
Claims
1. An assembly for loading cargo on a roof of a vehicle, comprising:
- a crossbar mounted on the roof of a vehicle perpendicular to the direction of vehicle travel,
- a saddle mounted on the crossbar and configured to support a cargo item on the roof;
- a load bar oriented substantially perpendicular to the crossbar and having a front end and a rear end;
- a roller member connected to the rear end of the load bar, the roller member being configured to support the cargo item while loading; and
- a clamp for coupling the load bar to the crossbar, the clamp having a gripping mechanism controlling freedom of the load bar to move forward and backward relative to the crossbar between stowed and loading positions, wherein the saddle is configured to be moved along the crossbar independent of the clamp and the load bar.
2. The assembly of claim 1, wherein the roller member is slidingly connected to the rear end of the load bar allowing the roller member to move along an axis parallel to the crossbar relative to the load bar.
3. The assembly of claim 1, wherein the roller member is pivotably connected to the rear end of the load bar allowing the roller member to pivot between stored and loading positions relative to the load bar.
4. The assembly of claim 1, wherein the roller member includes a hoop structure having a linear support portion parallel to a linear roller portion, and a t-fitting connecting the rear end of the load bar to the linear support portion of the hoop structure.
5. The assembly of claim 4, wherein the linear support portion of the hoop structure has a non-circular cross-section restricting rotation of the linear support portion within the t-fitting.
6. The assembly of claim 1, wherein the load bar includes a telescoping pair of concentric tubes for permitting extension of the roller member to a loading position at the rear of the vehicle.
7. The assembly of claim 1, wherein the saddle includes a J-shaped cradle.
8. The assembly of claim 1, further comprising a roller pad mounted on the roller member.
9. An assembly for loading cargo on a roof of a vehicle, comprising:
- first and second load bars each having a front end and a rear end;
- front clamps for coupling the first and second load bars to a front crossbar on the roof;
- rear clamps for coupling the first and second load bars to a rear crossbar on the roof; and
- a roller member connected to the rear end of the first and second load bars and configured to support a cargo item while loading, wherein the front and rear clamps are configured to permit selective alternating among (i) a first mode in which the first and second load bars are secured to the front and rear crossbars, (ii) a second mode in which the first and second load bars are permitted to move along a first axis perpendicular to the front and rear crossbars relative to those crossbars, and (iii) a third mode in which one of the first and second load bars is permitted to move along a second axis parallel to the front and rear crossbars relative to the other of the first and second load bars.
10. The assembly of claim 9, wherein, in the third mode, the other of the first and second load bars is permitted to move along the second axis relative to the one of the first and second load bars.
11. The assembly of claim 9, wherein the roller member includes a hoop structure having a linear support portion parallel to a linear roller portion, and a t-fitting connecting the rear ends of the first and second load bars to the linear support portion of the hoop structure.
12. The assembly of claim 11, wherein the linear support portion of the hoop structure has a non-circular cross-section restricting rotation of the linear support portion within the t-fitting.
13. The assembly of claim 9, further comprising a roller pad mounted on the roller member.
14. An assembly for loading cargo on a roof of a vehicle, comprising:
- first and second load bars each having a front end and a rear end;
- front clamps for coupling the first and second load bars to a front crossbar on the roof;
- rear clamps for coupling the first and second load bars to a rear crossbar on the roof;
- a saddle mounted on the front and rear crossbars and configured to support a cargo item on the roof; and
- a roller member connected to the rear end of the first and second load bars and configured to support the cargo item while loading, wherein the front and rear clamps are configured to permit selective alternating among (i) a first mode in which the first and second load bars are secured to the front and rear crossbars, (ii) a second mode in which the first and second load bars are permitted to move along a first axis perpendicular to the front and rear crossbars relative to those crossbars, and (iii) a third mode in which one of the first and second load bars is permitted to move along a second axis parallel to the front and rear crossbars relative to the other of the first and second load bars, wherein the saddle is configured to be moved along the front and rear crossbars independent of the front and rear clamps and the first and second load bars.
15. The assembly of claim 14, wherein, in the third mode, the other of the first and second load bars is permitted to move along the second axis relative to the one of the first and second load bars.
16. The assembly of claim 14, wherein the roller member is slidingly connected to the rear end of the first and second load bars allowing the roller member to move along a third axis parallel to the front and rear crossbars relative to the first and second load bars.
17. The assembly of claim 14, wherein the roller member includes a hoop structure having a linear support portion parallel to a linear roller portion, and a t-fitting connecting the rear end of the first and second load bars to the linear support portion of the hoop structure.
18. The assembly of claim 17, wherein the linear support portion of the hoop structure has a non-circular cross-section restricting rotation of the linear support portion within the t-fitting.
19. The assembly of claim 18, further comprising a roller pad mounted on the linear roller portion.
20. The assembly of claim 14, wherein the saddle includes a J-shaped cradle.
Type: Application
Filed: Oct 18, 2011
Publication Date: Jul 19, 2012
Applicant: Yakima Products, Inc. (Beaverton, OR)
Inventors: Chris Sautter (Portland, OR), Mike Kemery (Seattle, WA), Eric Roesinger (Portland, OR), Zac Elder (Portland, OR)
Application Number: 13/275,705
International Classification: B60R 9/042 (20060101);