MULTIPLE HITCH ASSEMBLY

Abstract

A multiple hitch assembly and method of use thereof including a hitch platform having a channel member and multiple hitch member having a block base. A dampening member may be affixed such that coupling of the multiple hitch member by locked engagement of received through holes of the block base and paired side holes disposed in flanges of the channel member compresses the dampening member upon the recessed column of the hitch platform to absorb and thus attenuate the load and associated torque imparted by movement and rub between the hitch platform and multiple hitch member to thereby reduce associated rattle noise, and vibration.

Claims

1. A multiple hitch assembly for mounting a tow accessory, comprising: a hitch platform having a shank tube member having an elongate end portion configured for telescoped coupled engagement within a receiver tube attached to the tow vehicle, a channel member having a recessed column disposed between opposed flanges, wherein the shank tube member is affixed to a back surface of the recessed column such that the channel member is disposed along a substantially perpendicular axis along an opposing end to the elongate end portion of the shank tube, a plurality of spaced pairs of aligned side holes disposed in the opposed flanges; a multiple hitch member having a block base configured for slidable correspondence with the channel member, wherein the block base has two pairs of transverse side surfaces extending between a rear surface and a distal pedestal, and wherein at least one through hole for aligned correspondence to the aligned side holes is disposed between one of the transverse side surfaces, wherein a plurality of integral hitch mount members are outwardly disposed from the pedestal; and at least one locking member configured for coupling the through hole of the base portion between the aligned side holes of the channel member such that locked engagement of the locking member with the side holes compresses a rear surface of the block base upon the recessed column of the channel portion of the hitch platform to thereby secure the hitch member thereto.

2. The multiple hitch assembly of claim 1, wherein the through holes of the block base are dimensioned such that the locking member is capable of detachably coupling the corresponding aligned side holes of the channel member so as to selectively orient the multiple tow hitch member to thereby adjust the height of the multiple hitch assembly while the hitch platform is in coupled engagement with the tow vehicle.

3. The multiple hitch assembly of claim 10, wherein the block base is dimensioned such that the locking member is capable of detachably coupling the through holes so as to detachably couple the multiple tow hitch member to selectively orient a one of the hitch balls and step in an upward use position while the hitch platform is in coupled engagement with the tow vehicle.

4. The multiple hitch assembly of claim 3, further comprising a dampening member affixed to the rear surface of the block base such that the dampening member abuts the recessed column of the channel portion when the multiple hitch member is secured in locked engagement to the channel member.

5. The multiple hitch assembly of claim 4, wherein the locking member is at least one elongate pin.

6. The multiple hitch assembly of claim 5, wherein the at least one elongate pin Is two elongate pins configured for coupled engagement with corresponding aligned side holes of the channel member and through holes of the block base, and further comprising a pair of clips wherein each of the two pins has a clip pin hole configured for coupling with a corresponding pair of clips configured for secured coupling with the clip pin holes and thereby affix the two elongate pins such that the multiple hitch member is secured in locked engagement with the channel member.

7. The multiple hitch assembly of claim 4, wherein the plurality of hitch mount members includes at least two hitch receiver balls of differing dimensions, and further includes a step member disposed between the at least two hitch receiver balls, wherein the step member is configured such that the hitch member is capable of being engaged within the hitch platform so as to position the step member in an upward facing orientation to thereby facilitate access to a rooftop surface and elevated objects.

8. The multiple hitch assembly of claim 4, wherein the plurality of hitch mounts includes three hitch receiver balls of different dimensions, and wherein two of the three hitch receiver balls are disposed in opposed transverse orientation and further includes a step member disposed between the two opposed receiver balls in opposed transverse orientation to another of the three hitch receiver balls, and wherein the step member is configured such that the hitch member is capable of being engaged within the hitch platform so as to position the step member in an upward facing orientation to thereby facilitate access to a rooftop surface and elevated objects.

9. The multiple hitch assembly of claim 7, wherein the step member is a planar surface of a generally rectangular configuration dimensioned to accommodate one foot or both feet of a user.

10. The multiple hitch assembly of claim 1, wherein the plurality of hitch mounts includes at least one tow mount that is a member of the group consisting of a clevis hook, pintle ring, D-shaped aperture, and J-shaped hook.

11. The multiple hitch assembly of claim 1, wherein the plurality of hitch mounts includes at least one hitch receiver ball, and at least one tow hook member, wherein the at least one hitch receiver ball and the at least one tow hook member are disposed in opposed transverse orientation.

12. The multiple hitch assembly of claim 10, further comprising a step member configured such that the hitch member is capable of being engaged within the hitch platform so as to position the step member in an upward facing orientation to thereby facilitate access to a rooftop surface and elevated objects, and wherein a step member is disposed between the hitch receiver ball and the tow hook member.

13. A multiple hitch assembly for mounting a tow accessory, comprising: a hitch platform having a shank tube member having an elongate end portion configured telescoped coupled engagement within a receiver tube attached to the tow vehicle a channel member having a recessed column disposed between opposed flanges, wherein the shank tube member is affixed to a back surface of the recessed column such that the channel member is disposed along a substantially perpendicular axis along an opposing end to the elongate end portion of the shank tube, a plurality of spaced pairs of aligned side holes disposed in the opposed flanges; a multiple hitch member having a block base configured for slidable correspondence with the channel member, wherein the block base has two pairs of transverse side surfaces extending between a rear surface and a distal pedestal, and wherein at least one through hole for aligned correspondence to the aligned side holes is disposed between one of the transverse side surfaces, wherein a plurality of integral hitch mount members are outwardly disposed from the pedestal and wherein the plurality of hitch mount members includes at least one hitch receiver ball, and at least one tow hook member such that the at least one hitch receiver ball and the at least one tow hook member are disposed in opposed transverse orientation, a dampening member disposed on the rear surface of the block base; and at least one locking member configured for coupling the through hole of the base portion between the aligned side holes such that locked engagement of the locking member with the side holes compresses the dampening member upon the recessed column of the channel portion.

14. The multiple hitch assembly of claim 10, wherein the multiple hitch member further includes a step member configured such that the hitch member is capable of being engaged within the hitch platform so as to position the step member in an upward facing orientation to thereby facilitate access to a rooftop surface and elevated objects.

15. The multiple hitch assembly of claim 14, wherein the locking member includes two clip pins, each having a pin configured for coupled engagement with corresponding aligned side holes, and wherein each of the two clip pins has a clip pin hole configured for locked engagement wherein the at least one elongate pin Is two elongate pins configured for coupled engagement with corresponding aligned side holes of the channel member and through holes of the block base and further comprising a pair of corresponding clips configured for secured coupling with a pair of corresponding clip pin holes and thereby affix the two elongate pins such that the multiple hitch member is secured in locked engagement with the channel member.

16. The multiple hitch assembly of claim 13, wherein the through holes of the block base are dimensioned such that the locking member is capable of detachably coupling the corresponding aligned side holes of the channel member so as to selectively orient the multiple tow hitch member to thereby adjust the height of the multiple hitch assembly while the hitch platform is in coupled engagement with the tow vehicle.

17. The multiple hitch assembly of claim 13, wherein the block base is dimensioned such that the locking member is capable of detachably coupling the through holes so as to detachably couple the multiple tow hitch member to selectively orient one of the hitch receiver balls and step in an upward use position while the hitch platform is in coupled engagement with the tow vehicle.

18. A method for providing a multiple hitch assembly for mounting a trailer to a tow vehicle, comprising the steps of: providing a hitch platform with a channel member having a recessed column disposed between opposed dual flanges, wherein the dual flanges have a plurality of spaced pairs of aligned side holes; and providing a multiple hitch member having a block base dimensioned for slidably fitted correspondence with the channel member, wherein the block base has a rear surface with an affixed dampening member, and wherein the block base has a plurality of through holes spaced and sized for coupled engagement with the plurality of corresponding aligned side holes, and wherein an integral pedestal extending from the block base includes a plurality of hitch mounts extending in different directions from the pedestal.

19. The method of claim 18, further comprising the step of detachably coupling the through holes of the multiple hitch member and the aligned side holes of the channel member so as to alternatively secure the hitch balls and step to a selected use orientation at a selected height so as to compress the dampening member between the rear surface of the block base and the recessed column of the channel member.

20. The method of claim 19, further comprising the step of detachably coupling the corresponding aligned side holes of the channel member so as to selectively orient the multiple tow hitch member to thereby adjust the height of the multiple hitch assembly while the hitch platform is in coupled engagement with the tow vehicle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0035] FIG. 1 is a side perspective view of an exemplary embodiment of the multiple hitch assembly of the present invention having a triple hitch ball and step assembly shown attached to a channel member.

[0036] FIG. 2 is a top view of the exemplary multiple hitch ball assembly shown in FIG. 1 shown attached to a receiver tube.

[0037] FIG. 3 is a bottom view of the exemplary multiple hitch ball assembly shown in FIGS. 1 and 2.

[0038] FIG. 4 is a side perspective view of the exemplary multiple hitch member having a triple hitch ball.

[0039] FIG. 5 is a side view of the exemplary multiple hitch member having a triple hitch ball.

[0040] FIG. 6 is a side perspective view of an exemplary embodiment of the multiple hitch assembly having a tow hook and a dual hitch ball.

[0041] FIG. 7 is another side perspective view of the exemplary multiple hitch assembly having a tow hook and a dual hitch ball.

[0042] FIG. 8 is a bottom view of the multiple hitch member having a tow hook and a dual hitch ball.

[0043] FIG. 9 is a side perspective view of the multiple hitch member having a tow hook and a triple hitch ball.

[0044] FIG. 10 is a side view of the multiple hitch member having a tow hook and a triple hitch ball.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0045] Exemplary embodiments of the present invention illustrated in FIGS. 1-10 depict alternative configurations of the multiple hitch assembly that may include a plurality of hitch balls, tow hooks and a step mount integrally disposed in different directions from a pedestal of a block base having a dampening member affixed to the rear surface such that the dampening member 22, 22′ and 22″ affixed directly to the back surface of a base portion 8, 8′ and 8″ of a dual flange ball tow mount hitch member 20.

[0046] It is to be expressly understood that the illustrative embodiment is a representation of the invention for explanatory purposes only and is not meant to unduly limit the claimed invention. The representative embodiment of the present invention is intended for use with receiver hitch systems including trailer mounts but also includes other dual or triple hitch mount configurations with or without a step hitch member such as detailed below. The illustrated as well as alternative embodiments may be used for original equipment installations and as an after-market accessory.

[0047] In the exemplary embodiment shown in FIGS. 1-5, multiple hitch member 20 includes a triple ball and step member disposed on a distal end of a shank tube hitch platform 10 is attachable within a corresponding receiver tube mounted beneath a bumper of a vehicle by well-known mounting techniques, such as by bolting or welding (not shown). In the illustrated embodiment, a platform shank tube 2 is sized and configured for telescoped seating within a 1½ inch square or 2-inch square receiver tube (internal dimensions). As is readily apparent, the hitch dampener assembly of the present invention may be employed with other sizes of shapes of hitch receiver tubes.

[0048] As shown in FIGS. 1-5, multiple hitch member 20 includes triple ball mounts 4A, 4B and 4C and step member 6 extending from a block base 8 sized and configured for slidably fitted correspondence within the recessed column of universal hitch platform 10. However, the scope of the claimed invention extends to other mount assemblies including but not limited to single or multiple hitch balls, pintle or O-shaped hook, step members or any mount for cargo, bicycles, motorcycles, wheelchairs, or carriers mounted thereon, such as, for examples cargo containers, platforms and other types of receiver mounted devices.

[0049] Referring to FIGS. 6-8, an alternative embodiment provides transversely disposed dual receiver balls 4A′ and 4B″ with tow hook 4D″ positioned on an opposing side step hitch 6′ on a base block 8′ in multiple hitch member 20′.

[0050] Now referring to FIGS. 9-10, another exemplary embodiment shown as multiple hitch member 20″ includes triple hitch ball 4A″, 4B″ and 4C″ with tow hook 4D′ extending from block base 8 to which dampening pad 22′″ is affixed. In yet other embodiments, tow hook 4D, 4D′ may be a clevis hook, pintle or O-shaped hook or be configured as a J-shaped, D-shaped, or other tow fastener adapted to a particular tow accessory.

[0051] In the illustrated embodiments of FIGS. 1-10, base block 8 and 8′, 8′″ includes through holes 24 and 24′ and 24′″ and 24″″ respectively configured for adaptably rotating block base 8 and secure in coupled engagement with corresponding aligned side holes 18 and 18′. Elongated pins 16 are successively received through aligned side hole 18, through holes 24 and 24′ and corresponding aligned side holes 18 to couple the block base 8 within a channel member 12 formed between opposing dual flanges 14 and recessed column such that securing elongated clip pins 16 by insertion of locking clips 16B through holes on ends of elongated pins 16A affixes tow hitch member 20 into locked engagement and thereby compresses the vibration dampening member 22 upon the inner recessed column 8 between opposing dual flanges 14 of hitch platform 10.

[0052] In the exemplary embodiments as shown in FIGS. 1-8, step member 6 and 6′ has an upper planar surface of a generally rectangular configuration dimensioned to accommodate one foot or both feet of a user. As shown, the illustrated step hitch 6 also includes linear grooves and protrusions to grip the sole of the user and thereby protect against slipping and falling. It can be readily surmised that in alternative embodiments the step member may be variously dimensioned to facilitate a desired function or design.

[0053] Hitch dampening member 22, 22′ and 22″ according to the present invention is shown as circular in shape and measures about 1½ inches (3.8 cm) in diameter. However, alternative configurations of the dampener dimensions may vary in accordance with the use and dimensions of the respective platform, tow accessory and vehicle in connection with which it is being deployed.

[0054] The composition of the illustrated hitch dampening member is preferably a polymeric rubber material. In particular, the body of hitch dampening member may be composed of any elastomer, or pliable, impact or vibration-absorbing material of suitable density, flex, and durability. Such compositions are functionally adaptable to dampen, buffer, dissipate or attenuate impact and torque associated with load strain exerted by an external force. The impact absorbing or dampening composition of vibration dampening member 22, 22′ and 22″ is configurable in any suitable size and shape such as, for example, a curved or circular device, bumper, washer, block, sheet, sleeve or other form that is adaptable to the geometry of the tow hitch platform and mount member.

[0055] Hitch dampening member 22, 22′, and 22′″ may be affixed by a single metal screw or multiple screws, or alternatively be fused, embedded or adhered to the back of the dual ball base with an industrial strength epoxy, or utilizing other means or materials well known in the art.

[0056] A representative embodiment of this dampening member particularly suitable for after-market applications includes a combination of rubber and metal screw thread configured to engage a corresponding threaded hole the back surface of the tow hitch member base.

[0057] Moreover, the shape of the hitch dampening member 22, 22′ and 22′″ of the present invention can take on various configurations which may include linear, curvilinear, convex or concave portions. The scope of the present invention expressly contemplates and includes any shape as well as composition providing without limitation, vibration and impact absorption capacity, pliability, tensile strength and density. The extent of such absorption and attenuation is commensurate to the hitch dampening member composition's composition and associated mechanical properties.

[0058] As will be apparent to persons of ordinary skill in the art of tow hitch assembly design and engineering, the extent and impact receiving and attenuation capacity of the device of the present invention correlates to the dampener surface area, thickness and density. More specifically, the vibration dampening member 22, 22′, and 22″ surface area, thickness and density comports with the connection tension of the hitch vibration dampening assembly exerted which is a function of the weight, shape and size, aerodynamics as well as force and torque exerted on the tow hitch assembly when in use.

[0059] It is to be expressly understood that the descriptive embodiment is provided herein for explanatory purposes only and is not meant to unduly limit the claimed inventions. The preferred embodiment of the present invention is intended for use with receiver hitch systems including trailer mounts as well as other tow accessories. The preferred embodiment may be used for original equipment installations and as an after-market item.

[0060] Hence, it is to be further expressly understood that these exemplary embodiments are provided for descriptive purposes only and not meant to unduly limit the scope of the claimed inventions. Other embodiments are also considered to be within the scope of the present inventions.