An apparatus configured to be secured to a shovel and provide distribution of material during use of the shovel. The present invention includes a body having a hollow interior volume. The body has an upper end with and opening providing access to the interior volume. The lower end of the body includes a first portion and second portion that extend in opposing directions. A plurality of apertures are formed in the first portion and second portion of the body so as to provide spreading of a material as the shovel is utilized. The body is releasably secured to a mount wherein the mount is secured to the handle of the shovel. The mount includes a pair of support arms that are configured to cradle the lower end of the body. The body includes a slot formed therein that is operable to be releasably secured to a clip on the mount.

A spreader comprises a hopper for containing sand, salt or other granular material to be spread upon snow or ice on paved surfaces, the hopper being adapted to be installed in or on a bed of a truck, the hopper having a trough, a shaftless auger positioned in the trough, an auger motor for driving the auger, a spinner positioned at one end of the auger for slinging the granular material upon the snow or ice, a spinner motor for driving the spinner, and at least one keeper supported by the trough and extending over the auger for retaining the auger in place during operation and thereby reducing flexure of the auger and resulting loss of efficiency of material transport by the auger during operation of the spreader.

A snow removal blade has a rolling body, a snow-removal knife connected to a bottom portion of the rolling body, a plurality of nozzles for delivering a melting liquid on the snow left on the road surface by the snow-removal knife, and a member for mixing together and pressing the residual snow and the melting liquid, which is arranged behind the snow-removal knife in a direction of advance of the snow removal blade, the snow-removal knife and the mixing and pressing member delimiting between them a channel for lateral outlet of the snow, arranged in which are the delivery nozzles.

A liquid feeder control system for dispensing a liquid mixture of a preset proportion includes an inlet hose, a pump, a control valve, an outlet hose, a hydraulic pressure switch (HPS), and a fluid pressure switch (FPS). The inlet hose is operably connected to an inlet of the pump and transfers liquid from a liquid storage tank to the pump. The pump pressurizes and releases the liquid to an outlet of the pump. The control valve regulates the flow. The outlet hose is operably connected to the outlet and is in fluid communication with at least one injecting device. The HPS is operably connected to the pump and a material delivery system. The HPS turns off the pump when the material delivery system stops and vice-versa. The FPS is operably connected to the pump for sensing the pressure of the liquid and is operably connected to a visual indicator.

A snow plow is pivotally mounted to a tractor by a compound mount allowing for multiple blade positions. The mount has an inner portion pivotally mounted about a first horizontal axis to the front of the tractor and an outer portion pivotally mounted about a vertical axis to the inner portion. The plow blade is pivotally mounted about a second horizontal axis to the outer portion. Deicer nozzles spray liquid and a spreader distributes salt and other materials in front of the front wheels of the tractor.

A system and method herein relate to vehicle control by adjusting a torque distribution of the vehicle. The system includes a first motor configured to provide a torque to a first wheel, and a delivery system configured to controllably apply a traction control compound to a route on which the first wheel is configured to travel. The system also includes a controller circuit having one or more processors. The controller circuit is configured to control the delivery system to apply the traction control compound to the route based on a monitored temperature of the first motor.

A deicing and snow melting device, for elevating the melting point of ice and snow, comprises of a plurality of pellets including an active ingredient. Each pellet of the plurality of pellets has at least an underside and a topside. The active ingredient is selected from the group consisting of chloride salts, organic compounds, alcohols or mixtures thereof. A base comprising a water-soluble sheet is joined to either one of the underside or topside of each pellet of the plurality of pellets. The base may define at least one hole through a top surface and bottom surface of the base allowing for easy dispersion of the active ingredient

A snow removal device comprising an accumulation surface for receiving snow when in use, with one or more rigid sections extending from or connected to the accumulation surface to form a V shaped plow. The accumulation surface may be attached to a support shaft which may include an additional handle to produce a manually operated snow shovel. Alternatively, a bracket mounted to the inward facing surface of the V shaped plow may connect the snow removal device to a granular spreader apparatus. The V shaped plow may include a deflector, of various shape, integrally attached at the leading apex of the plow. Additionally, the outward facing surface of the V shaped plow may utilize a concave shape that may increase along a gradient as it gets closer to the distal ends of the plow and/or as it gets closer to the top edge or the bottom edge of the plow.

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 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.