A trailer hitch assembly includes a shank, coupleable to a receiver carried by a towing vehicle. A ball attachment bracket is attachable to the shank. A ball assembly is receivable within the ball attachment bracket, the ball assembly capable of mating with a trailer coupler carried by a trailer to be towed. A distribution block is attachable to one or both the ball attachment bracket or the shank. The distribution block has arm socket attachments to allow coupling of a pair of arm sockets to the distribution block, each of the arm sockets capable of receiving one of a pair of spring arms attachable to the trailer to be towed. The distribution block is removable from each of the ball attachment bracket and the shank while the ball attachment bracket remains operably coupled to the shank for use as a standard ball hitch assembly.

Various embodiments of a storage system for use with weight distribution trailer hitches are disclosed. The storage system would be used by someone with a towing vehicle, a boat or RV, and a trailer hitch to link these two. During the times these items are not in-motion, these weight distribution hitches have large parts and take up a lot of space. Such a customer can put their extra hitch-parts in the storage system, which keeps the weight distribution system nicely stored for example on the trailers beams AKA the trailer's A-frame rails or frame.

A weight distribution hitch system comprising a vehicle attachment member comprising a forward end configured to rigidly attach to a vehicle, and a rearward end extending rearwardly toward a trailer, the rearward end comprising an upper portion comprising a trailer attachment member configured to pivotally attach to a coupler of the trailer, and a lower portion configured to receive a moment bar; a tension member comprising a top end configured to be supported by a frame member of the trailer, and a bottom end, and a moment bar, the moment bar comprising a first end configured to either be attached the lower portion of the rearward end of the vehicle attachment member or to be supported by the bottom end of the tension member, a second end also configured to either be attached to the lower portion of the rearward end of the vehicle attachment member or to be supported by the bottom end of the tension member, a first major face configured to face either generally upward or generally downward, a second major face opposite the first major face and also configured to face either generally upward or generally downward, and a bend between the first end and the second end; wherein, when the tension member is in tension, it imposes an upward force on the end of the moment bar that is supported by the tension member, which, in turn, imposes a forward moment on the vehicle; and wherein a preload on the moment bar is varied depending on whether the first major face faces generally upward or generally downward is disclosed.

The present invention relates to a tow trailer having a structure (5) for lifting and transporting cargo and unloading them, the trailer is drawn by a suitable tow apparatus. The trailer comprises a lifting device (1) to lift and unload the cargo, wherein the lifting device is coupled to forks. The trailer moves stably due to mounting the lifting device stably in a part of the front side of the trailer, and the presence of wheels mounted in both sides thereof. The trailer has a bar (8) in the rear side, and it also has one or more barriers (7) in the middle of the trailer so as to be under the cargo. The trailer is provided with a trailer jack (2) mounted in the bearing positions of the trailer in order to stabilize it during lifting or unloading the cargo.

An adjustable bracket assembly for a weight distribution system is shown and described herein. The adjustable bracket assembly may include a plurality of bracket members including at least a first bracket member, a second bracket member, a third bracket member, and a fourth bracket member arranged to be adjustable relative to one another and be selectively attached to a frame of a towed vehicle. The plurality of bracket members may be coupled to a plurality of fasteners to allow the plurality of bracket members to be adjusted relative to one another and to provide clamp forces relative to the frame of the towed vehicle. An attachment assembly may be coupled to the first bracket member and be configured to be attached to a spring arm of a weight distributing system that may be coupled to a towing vehicle.

A weight distributing hitch assembly for towing a trailer behind a towing vehicle is disclosed having spring arms pivotally mounted to a hitch head so that the distal ends of the spring arms may be rotated downward relative to a spring arm support mounted on a side of the trailer for loading the spring arm on the spring arm support. The spring arms are preferably rotated using an actuator connected between the hitch head and at least one of the spring arms for applying a downward rotational force on the spring arm relative to said spring arm support.

A hitch system comprising a hitch shaft with a forward end configured to rigidly attach to a tow vehicle and a rearward end extending rearwardly toward a trailer frame; a head unit pivotally attached to the rearward end of the hitch shaft at a first pivot point having an upper portion and a lower portion, comprising a hitch ball on the upper portion of the head unit positioned out of vertical alignment with the first pivot point creating a second pivot point between the hitch ball and a trailer attached thereto; and a slot on the lower portion of the head unit, the slot having portions in vertical alignment with the first pivot point and the second pivot point; a first moment arm with a distal end configured for slidable attachment to a first bracket on the trailer frame and a forked proximal end comprising a first tine pivotally connected to the lower portion of the head unit; and a second tine having a knob in a sliding connection with the slot; and a second moment arm with a distal end configured for slidable attachment to a second bracket on the trailer frame and a proximal end pivotally attached to the head unit; wherein the first moment arm is at a first angle relative to the member of trailer and the second moment arm is at a second angle relative to the trailer; wherein the first angle is greater than the second angle; and whereby the effective pivot point of the system is moved forward to reduce sway is disclosed.

A weight distributing trailer hitch and associated method are described. The weight distributing trailer hitch can include a hitch portion for interfacing with a hitch receiver associated with a vehicle. The weight distributing trailer hitch can also include a ball portion to facilitate coupling with a tongue of a trailer. In one embodiment, the weight distributing trailer hitch can further include a spring bar vertically pivotal relative to the hitch portion, and an adjustment mechanism actuatable to selectively adjust a tilt angle of the spring bar relative to the hitch portion to vary preload on the spring bar and adjustably distribute weight of the trailer relative to the vehicle. In another embodiment, the weight distributing trailer hitch can further include a spring bar for distributing weight of the trailer relative to the vehicle, and a load measurement device to determine a magnitude of a downward force on the hitch ball.

A spring bar coupling device is described for coupling a spring bar of a weight distributing trailer hitch to a trailer frame. The spring bar coupling device can include a spring bar support operable to interface with and support a spring bar of a weight distributing trailer hitch. The spring bar support can have a vertical support arm having a first coupler opening, and a lower spring bar stop extending from the vertical support arm to provide a lower interface for the spring bar. The spring bar coupling device can also include a channel bracket having at least two opposing walls defining a vertically oriented channel operable to receive the vertical support arm, and a second coupler opening in at least one of the two walls. The first and second coupler openings can be configured to be aligned with one another at a first coupling location when the vertical support arm is located at least partially within the vertically oriented channel. In addition, the spring bar coupling device can include at least one coupler operable to extend into the first and second coupler openings to couple the spring bar support to the channel bracket.

A trailer hitch is disclosed. A weight distribution hitch includes an attachment member with a forward end which attaches to a vehicle and a rearward end which pivotally connects to a trailer. The weight distribution hitch also includes a moment bar which attaches to the attachment member on one and tension mechanism on the other. The tension mechanism is mounted on a frame of the trailer and provides an upward force on the moment bar which imposes a moment on the attachment member. Center lines of the attachment member, moment bar, and the vehicle are all in a vertical plane. The weight distribution hitch may also include an aperture disposed in the moment bar through which the tension mechanism passes.