An axle arrangement for a baler includes a first axle, a second axle, and a pair of elongate members. The first axle has first and second ends. First and second suspension cylinders are positioned at the first and second ends. The first axle is coupled with the chassis. The second axle has first and second ends. First and second suspension cylinders are positioned at the first and second ends to accommodate generally vertical loads. A first elongate member interconnects the first end of the second axle with the first end of the first axle. A second elongate member interconnects the second end of the second axle with the second end of the first axle.

This disclosure concerns a propulsion and load distribution system for a pedal actuated vehicle. More specifically, this disclosure is directed to an electrically powered frame, trailer, vehicle, trailer, cart, and/or cycle coupled to at least one motorized wheel operably connected thereto. In some embodiments, the propulsion system can be operably associated with a load distribution system comprising a rocker arm and a spring that are configured to be associated with a frame having an axle or to which an axle can be mounted.

This disclosure is directed to a load distribution system for vehicles and a method for mounting the load distribution system. More specifically, this disclosure is directed to a system comprising a rocker arm and a spring that are configured to be associated with a frame having an axle or to which an axle can be mounted. In some embodiments, the rocker arm can be rotatably coupled to at least one wheel. In some embodiments, an equalizer is attached to the rocker arm. In some embodiments, at least two wheels are rotatably coupled to the equalizer.

A spring hanger assembly may be formed pieces shaped to increase the stiffness and strength. The spring hanger assembly may comprise separate pieces, such as an inner section and an outer section. The spring hanger assembly may be attached to a frame using fasteners or hucks.

A spring hanger assembly may be formed pieces shaped to increase the stiffness and strength. The spring hanger assembly may comprise separate pieces, such as an inner section and an outer section. The spring hanger assembly may be attached to a frame using fasteners or hucks.

Load balancing systems and methods, and trailers with components for load balancing across the trailers or portions (e.g., axles, springs, frame portions) thereof are provided herein. Some trailers comprise a frame, a suspension system configured to support the frame on a set of axles comprising a first axle, and wherein the first axle is movably coupled to the frame. Some trailers comprise a frame, a piping system coupled to the frame, and a set of tanks coupled to one another via the piping system. The piping system can comprise a set of pumps configured to pump fluid between the tanks for load balancing.

A carrier platform with a suspension mechanism and suspension methods for supporting a vibration-sensitive load including humans and sensitive objects or cargo in a vehicle such as a terrestrial vehicle, a marine vehicle or aircraft. The suspension mechanism deploys a set of linkage elements for accommodating linear motion of the carrier platform in a vertical linear degree of freedom (Z-axis) and in two horizontal linear degrees of freedom (X- and Y-axes). The suspension mechanism uses springs attached to the carrier platform for biasing it along the vertical linear degree of freedom. The suspension mechanism also has an active damping device with a set of motors to dampen vibrations experienced by the carrier platform in at least one translational degree of freedom.

A vehicle for transporting persons and/or goods, having at least one frame which includes of at least one frame element which extends substantially parallel or obliquely to the longitudinal direction of the vehicle, at least one wheel carrier which can be detachably secured to the frame element and which, together with the frame element, forms a receiving region between the wheel carrier and the frame element. The wheel carrier and the frame element are spaced apart from one another at least in sections so as to form a cavity. The frame also includes at least one wheel unit which includes a wheel and can be fixed or is fixed in a rotatably mounted manner at least in sections in the receiving region between the wheel carrier and the frame element.

Described herein is an axle assembly and method of fabrication thereof. The axle assembly includes an axle having a first geometric shape housed within an axle housing having a second geometric shape. A shock absorber is located between the axle and the axle housing. The shock absorber supports the axle within the axle housing and comprises a first material and comprises a multi-sided configuration. The first geometric shape and the second geometric shape comprising polygons.

A vehicle for transporting persons and/or goods, having at least one frame which includes of at least one frame element which extends substantially parallel or obliquely to the longitudinal direction of the vehicle, at least one wheel carrier which can be detachably secured to the frame element and which, together with the frame element, forms a receiving region between the wheel carrier and the frame element. The wheel carrier and the frame element are spaced apart from one another at least in sections so as to form a cavity. The frame also includes at least one wheel unit which includes a wheel and can be fixed or is fixed in a rotatably mounted manner at least in sections in the receiving region between the wheel carrier and the frame element.