A spreading device is disclosed for spreading vehicles for discharging spreading agents. The spreading device includes at least one tank for receiving liquid spreading agents to be spread and at least one rotationally-driven discharge device, connected via a provided supply unit to the tank. The discharge device has at least one base body and one cover securely connected to the base body, wherein the base body defines a receiving chamber (AR) for the supplied liquid spreading agent and is in the shape of a cylinder. The base body has at least one bottom section, forming an underside (U) of the discharge device, with an inlet opening and at least one wall section projecting from the bottom section and concentrically surrounding an axis of rotation (RA). The discharge device has multiple discharge units, each having a discharge opening, for dispensing the liquid spreading agent from the receiving chamber (AR).

A material spreader assembly for the broadcast spreading of particulate material from the trailer hitch of a vehicle. A hopper for storing the particulate material is supported by a frame having a trailer hitch coupler for connection to the vehicle. A spreader including a spinner driven by an electric motor receives and disperses the particulate material. A control circuit receives electric current from the vehicle via a plug interface and a wiring harness and controls the operation of the spreader. A remote communicates user commands to the control circuit. The control circuit includes a motor control processor that controls a motor power relay and a motor driver to gradually ramp up the current supplied to the spreader for start up the spreader while preventing a high transient current draw spike. Component feedback sensors enable the motor control processor to provide an emergency shut off feature and warning signals.

A longitudinally adjustable flow divider situated in the particulate material path of a spinner spreader between the bin and the rotatable disc divides the particulate material so that the particulate material is dischargeable on to the upper surface of the rotatable disc on first and second laterally spaced apart longitudinally oriented drop lines. An actuator operably connected to the flow divider adjusts a longitudinal position of the flow divider to longitudinally adjust drop points on the drop lines at which the particulate material is dischargeable on to the rotatable disc. Longitudinal adjustment of the drop points along laterally spaced apart drop lines on one spinner disc permits control over spread pattern to help achieve uniform distribution of the particulate material on a ground surface.

An apparatus for spreading particulate material has a bin for holding particulate material, a rotatable disc for broadcasting the particulate material to a ground surface, a conveyor for conveying the particulate material in a particulate material path from the hopper to the rotatable disc, and a plurality of sluices situated in the particulate material path between the bin and the rotatable disc. Each sluice receives a portion of the particulate material and delivers the portion of particulate material to a radial and/or angular position on the rotatable disc. At least one of the sluices is independently moveable to adjust the radial and/or angular position on the rotatable disc to which the portion of particulate material from the at least one independently moveable sluice is delivered.

A method of controlling a DC motor that includes the step of providing a pulse-width modulation (PWM) signal to the DC motor. The PWM signal provides a voltage to operate the DC motor. The method also includes the steps of measuring a voltage generated by the DC motor when the PWM signal is off. In more particular embodiments, the method includes measuring a current being supplied to the DC motor when the PWM signal is off. The method may further require determining a motor speed of the DC motor based on the measured voltage. The method further includes controlling the DC motor to maintain a relatively constant motor speed with varying loads on the DC motor.

A salt spreader for distributing a material includes a bucket including a front surface, a rear surface, and first and second side surfaces. The front and rear surfaces tend toward one another at a base of the bucket, and the bucket includes first and second ejection ports in the base. The salt spreader further includes a separator positioned in a center of the bucket parallel to the first and second side surfaces, first and second spinner mounts attached to the base of the bucket under the first and second ejection ports, respectively, first and second spinners rotatably mounted atop of the first and second spinner mounts, respectively, an auger positioned adjacent to the base of the bucket, and first and second covers within the bucket extending downwardly from the first and second side surfaces, respectively, toward the separator.

A salt spreader for distributing a material includes a bucket including a front surface, a rear surface, and first and second side surfaces. The front and rear surfaces tend toward one another at a base of the bucket, and the bucket includes first and second ejection ports in the base. The salt spreader further includes a separator positioned in a center of the bucket parallel to the first and second side surfaces, and first and second covers within the bucket extending downwardly from the first and second side surfaces, respectively, toward the separator.

A method of controlling a DC motor that includes the step of providing a pulse-width modulation (PWM) signal to the DC motor. The PWM signal provides a voltage to operate the DC motor. The method also includes the steps of measuring a voltage generated by the DC motor when the PWM signal is off. In more particular embodiments, the method includes measuring a current being supplied to the DC motor when the PWM signal is off. The method may further require determining a motor speed of the DC motor based on the measured voltage. The method further includes controlling the DC motor to maintain a relatively constant motor speed with varying loads on the DC motor.

A salt spreader for distributing a material includes a bucket including a front surface, a rear surface, first and second side surfaces, and a base surface, wherein the front and rear surfaces tend toward one another, and wherein the base surface includes an ejection port, a spinner mount attached to the base surface of the bucket under the ejection port, a spinner rotatably mounted atop of the spinner mount, and an auger positioned in a base of the bucket.

A granular product dispenser is provided for residential or commercial use to spread salt/ice melt on walkways, drive-ways, and paths during the winter. Operation of the dispenser will be controlled through the use of an interactive website that will allow a user to turn the device ON/OFF wirelessly. Unlike current handheld dispensers, this device is intended to be placed on a porch or mounted along a path/driveway and controlled without manual operation. The dispenser includes an enclosed hopper to store melt product, a series of motors to control the flow and distribution of this product, and all electronics necessary to control the dispenser system.