There is provided a snowblower comprising a frame with a transversally extending portion; an auger assembly mounted to the frame and comprising a rotating axle extending substantially parallel to the transversally extending portion and a snow-gathering device mounted to rotating axle and rotating therewith about an auger rotating axis at an auger revolution speed; an impeller assembly mounted to the frame and comprising a snow-expelling device rotatable about an impeller rotation axis at an impeller revolution speed, the impeller rotation axis extending substantially parallel to the auger rotating axis; an actuator assembly configured to engage the auger and impeller assemblies in rotation wherein the impeller revolution speed is greater than the auger revolution speed; and a discharge chute mounted to the frame and having a discharge chute inlet adjacent to the impeller assembly. There is also provided a method for clearing away snow.

An automatic moving snow removal device including a moving module, driving a snow blower to move; a working module, including a working motor and a snow throwing mechanism driven by the working motor, the snow throwing mechanism is driven by the working motor to collect accumulated snow and inclusions on the ground and throw out of the snow throwing mechanism; and a control module, configured to control a rotary speed of the working motor to cause a speed when the inclusions depart from the snow throwing mechanism is not higher than 41 m/s.

A snow thrower includes a motor, an auger driven by the motor to rotate, a handle device for a user to operate, an auger housing for containing the auger and a frame for connecting the handle device and the auger housing. The auger housing is made of at least two different materials.

A hydrostatic transmission assembly includes a first housing member and a housing cap sealed to the first housing member to form a sump wherein a pump and motor are rotatably disposed. A pump mount is located in the sump and engaged to the housing cap. The housing cap also includes a motor mount for an axial piston motor, and hydraulic fluid passages for connecting the pump to the motor. A pocket is located in the housing cap to rotationally support a swash plate for the pump.

An assembly for releasable attachment to a vehicle. The assembly comprises a frame including a mounting member configured to be mounted onto the vehicle, a plow blade mounted to the frame and a power broom coupled to the frame and disposed between the mounting member and the plow blade. The power broom is configured to be disposed in front of a most forward wheel of the vehicle relative to a forward direction of travel of the vehicle. The power broom is also configured to rotate to sweep snow away from the power broom.

A system for applying and recovering de-icing chemicals from a surface. The system includes a spray system for applying a de-icing chemical to the surface and draws the de-icing chemical from the surface. The de-icing chemical and contaminants are conveyed to a reservoir to form a combined solution. A recovery system includes a filter device for removing solids from the combined solution, at least one sensor for measuring a property of the combined solution, and a source of additive chemical. A controller is configured to determine a property of the combined solution based on signals provided by the at least one sensor, move a valve to an open position to cause the additive chemical to mix with the combined solution if the property is less than a predetermined minimum value, and move the valve to a closed position if the property is greater than the predetermined minimum value.

A system for applying and recovering de-icing chemicals from a surface. The system includes a spray system for applying a de-icing chemical to the surface and draws the de-icing chemical from the surface. The de-icing chemical and contaminants are conveyed to a reservoir to form a combined solution. A recovery system includes a filter device for removing solids from the combined solution, at least one sensor for measuring a property of the combined solution, and a source of additive chemical. A controller is configured to determine a property of the combined solution based on signals provided by the at least one sensor, move a valve to an open position to cause the additive chemical to mix with the combined solution if the property is less than a predetermined minimum value, and move the valve to a closed position if the property is greater than the predetermined minimum value.

A snow removal machine capable of illuminating, with a light projector, a dropped position of snow that varies depending on a direction of a chute guide. A working machine as a snow removal machine includes a machine body, and a chute that is provided on the machine body, and throws away snow. The chute includes a chute main body extending upwardly from the machine body, and a chute guide that is pivotably provided on a distal end portion of the chute main body, and adjusts a snow throwing direction that is an up-down direction of the snow to be thrown, the chute guide is connected to the chute main body side through a link, and the link is provided with a light projector so as to be capable of illuminating a dropped position of the snow to be thrown.

A drive assembly for a walk-behind, powered device operably couples an engine of the powered device to a mobility assembly to provide mobility of the powered device responsive at least in part to operation of the engine. The drive assembly includes a transmission shaft and a short turning assembly. The transmission shaft selectively receives drive power operably coupled from the engine to drive a first drivable component and a second drivable component of the mobility assembly. The first and second drivable components are disposed substantially at opposite sides of the powered device. The short turning assembly is configured to cause both disengagement of drive power and activation of braking to the first drivable component while drive power is provided to the second drivable component.

A driving system for driving at least one auger of a snow removing device comprising at least one at least one self-adjusting chain tensioner. A first portion of the driving system is positioned within an auger housing and a second portion of the driving system is positioned outside the auger housing. The roller chain is adapted to move across a third opening provided in the auger housing. The first portion is covered by a front guard to prevent snow or debris contained in the auger housing to contact said first portion. The front guard is provided with an opening adapted to surround a portion of a shaft element of the auger with a play between periphery of the opening and the periphery of a corresponding portion the shaft element. The play is either small enough to prevent water and or debris to enter the first casing, or filled with a filling element and/or covered with a sealing element secured to the front guard or the corresponding portion of the shaft element of the at least one auger, to have the play small enough to prevent water and/or debris to enter the first casing. The second portion prevent snow or debris present around the snow removing device to contact the said second portion. A snow blower provided with the driving system, a kit comprising parts and/or components of the driving system, a method for assembling the driving system, and a method for manufacturing some components or parts of the driving system.