The present invention relates generally to fifth wheel trailer and hitch assemblies for use on pickup trucks and similar vehicles used to tow fifth wheel trailers, and particularly to a self-adjusting fifth wheel trailer assembly.
Fifth wheel trailers and hitches are well known in the art. Fifth wheel trailers are generally much larger and heavier than typical trailers and often require relatively heavy tow vehicles such as heavy-duty pickup trucks to pull them. Generally, a fifth wheel trailer assembly (pinbox and kingpin) is mounted to the fifth wheel trailer and a fifth wheel hitch assembly (fifth wheel support and locking mechanism) is mounted to the flatbed of a pickup truck. Thus, the kingpin of the pinbox engages the locking jaw mechanism of the fifth wheel to pivotally engage the trailer to the towing vehicle. The fifth wheel trailer is thus able to pivot relative to the tow vehicle about a vertical axis to facilitate cornering and parking. Normally, the fifth wheel hitch assembly is mounted directly over or a short distance in front of the rear axle of the tow vehicle in order to maintain proper weight distribution. Thus, when the fifth wheel trailer assembly engages the fifth wheel hitch assembly, a portion of the trailer's weight is carried directly over the rear axle of the tow vehicle.
So as to permit the turning of the towing vehicle and relative pivoting between the towing vehicle and the trailer, there must be at least 51 inches of clearance between the pivot point and the rear of the towing vehicle cab in order to prevent contact between the trailer and the cab (sometimes more depending on the fore/aft location of the pivot pin relative to the front of the trailer). Recently, there has been a consumer trend towards extending pickup truck cabs. These trucks have greatly expanded interior cargo volume and also have specially designed rear jump seats for accommodating additional passengers. Unfortunately, most of these extended cab pickups are built on a standard wheelbase chassis because consumers prefer the driving characteristics of a shorter truck, and accordingly, the bed of these trucks is typically 6 feet long rather than 8 feet long. Although these shorter bed pickups have the towing capacity to handle fifth wheel trailers, they do not have enough clearance between the axle and the rear of the cab to allow the trailer to pivot to a 90-degree angle without contacting the cab, which could damage the truck and severely injure any occupants. In most circumstances, a fifth wheel trailer will contact the cab of a short bed pickup at angles much less than 90 degrees.
Several approaches have been contemplated to adapt fifth wheel trailers to short bed pickup trucks. One particular approach uses a sliding fifth wheel hitch base that requires the operator to exit the truck, unlock the base, lock the brakes on the trailer and pull the truck forward. This temporarily moves the pivot point rearward in the truck bed so that the trailer can pivot relative to the truck to a certain extent without contacting the cab. However, before resuming driving, the driver must lock the trailer brakes, back the truck towards the trailer, again exit the truck and lock the sliding hitch, and return to the truck. Obviously, such a system is impractical in many situations, such as negotiating sharp turns in traffic, and is practically useless in an emergency.
Another approach involves providing a self-adjusting, sliding hitch assembly as described in U.S. Pat. No. 6,308,977 issued to Andrew Pulliam, et al. on Oct. 30, 2001, and entitled Sliding Hitch for Fifth Wheel Trailers which is hereby explicitly incorporated by reference herein. However, the '977 patent merely describes and contemplates providing a fifth wheel hitch assembly mounted to the vehicle bed that includes a “head” slidable relative thereto. As such, a larger fifth wheel hitch assembly must be constructed to provide sliding movement. Further, as with the prior art, such sliding movement of the fifth wheel hitch assembly head moves the weight distribution of the fifth wheel trailer longitudinally along the vehicle and out of alignment with the rear axle of the vehicle. As a result, the fifth wheel trailer places increased forces on the chassis of the towing vehicle and the fifth wheel hitch.
Thus, there is a need to address the problems associated with the disadvantages of the prior art. As such, the present invention overcomes these disadvantages by providing the sliding movement in the fifth wheel trailer assembly thereby allowing the fifth wheel hitch assembly to be stationarily mounted within the pickup bed. As such, the most efficient or appropriate position for the fifth wheel hitch assembly can be determined and utilized so as to provide an ideal position for accommodation of the weight thereon. In addition, the ideal position can be maintained even during automatic adjustment.
Therefore, disclosed herein, is a fifth wheel assembly for coupling a trailer to a vehicle, the fifth wheel assembly comprising a trailer assembly engagable with a hitch assembly. The trailer assembly has a skid plate having a cam channel formed therein and a cam arm having a cam member wherein the cam member engages and is movable within the cam channel. A hitch bar may pivotally connect the hitch assembly to the trailer assembly. The hitch assembly may have a base attachable to a transporting vehicle and a rocker pivotally connected to the base. The trailer assembly is slidable in a longitudinal direction with respect to the hitch assembly such that the trailer is movable toward and away from the towing vehicle. To this end, the hitch assembly may be mounted in a stationary position with respect to the vehicle and the trailer assembly may slide away from the vehicle.
Objects and advantages together with the operation of the invention may be better understood by reference to the following detailed description taken in connection with the following illustrations, wherein:
FIGS. 4 is a bottom plan view of the trailer assembly of
FIGS. 5 is a perspective view as seen from the bottom of the trailer assembly of
FIGS. 6 is a side elevational view of the trailer assembly of
a through 7e are several views of sliding component of the present invention.
FIGS. 8 is bottom perspective view of the sliding component when the towing vehicle is moving in the straightforward direction.
FIGS. 9 is a bottom plan view of the sliding component when the towing vehicle takes a hard right turn.
FIGS. 10 is a bottom plan view of the sliding component when the towing vehicle takes a hard left turn.
The present invention will now be described in accordance with the preferred embodiment as shown in
As shown in
As best shown in
The rocker 26 general comprises a box-like structure having an opening 30 that assists in the insertion of the hitch bar 32, described in greater detail below. Within the rocker 26 is a pair of latch members 34 to pivotally capture the hitch bar 32 of the trailer assembly 12 to secure the hitch bar 32 firmly to the base 16 thus securing the trailer to the pickup truck. However, it should be clear that other suitable known connections could be made to connect the trailer assembly to the hitch assembly as well as permit pivoting thereabout.
The sidewalls of the central housing 24 each include a series of spaced mounting points (not shown) as know in the art. Fasteners in the form of bolts are utilized to secure the legs 18 to the sidewalls 24 of the central housing 20. More particularly, the bolts are inserted through any one set of the series of vertically spaced mounting apertures and threadedly engaged in the apertures in the inner section or mounting walls of the legs. As should be appreciated, the height of the central housing 20 relative to the legs 18 may be adjusted depending upon which set of the series of vertically spaced mounting apertures is selected to complete the connection.
The legs 18 preferably are arched and have a radius of curvature of between about 17 to about 21 degrees and typically about 19 degrees. The radius of curvature may be constant or may vary over the length of the legs 18. The arched legs 18 define an arc of between about 45 to about 90 degrees and typically about 60 degrees. Advantageously, the arched legs 18 provide not only added strength but also better and more favorable distribution of the trailer weight across the fifth wheel hitch assembly 14 and the towing vehicle (i.e., provides optimum vertical down strength). Further, the arched configuration of the legs 18 delivers loads efficiently through the vehicle frame in a more direct path.
The sliding fifth wheel trailer assembly 12, as best shown in
As best shown in
Therefore, the present invention overcomes the disadvantages of the prior art by providing the sliding movement in the fifth wheel trailer assembly thereby allowing the fifth wheel hitch assembly to be stationarily mounted within the pickup bed. As such, the most efficient or appropriate position for the fifth wheel hitch assembly can be determined and utilized so as to provide greater accommodation of the weight thereon by supporting the entire weight of the fifth wheel trailer at that point even during automatic adjustment.
This application claims priority from U.S. Provisional Patent Application No. 60/707,313 filed on Aug. 11, 2005, which is hereby incorporated by reference.
Number | Date | Country | |
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60707313 | Aug 2005 | US |