An example cold planer system includes a machine frame, a milling drum, a first conveyor, a second conveyor, a swivel sensor and a control module. The milling drum is rotatably coupled to the machine frame. The first conveyor is configured to convey a milled material away from the milling drum. The second conveyor is configured to convey the milled material from the first conveyor to a discharge location and the second conveyor is pivotably connected to the machine frame. The swivel sensor is configured to generate swivel data corresponding to a swivel position of the second conveyor. The control module is in electrical communication with the swivel sensor, and the control module is configured to receive the swivel data and to control motion of the second conveyor based on the swivel data.

An apparatus for broadcasting particulate or granular material over a ground surface involves a variable speed spinner and a material conveyor. The spinner is positioned generally horizontally below a discharge end of a material conveyor. The spinner has a disk having a generally radially disposed fin fixed to an upper side of the disk and radiating outwardly from a center of the disk. The spinner is positioned to receive material from the material conveyor at a location about half way along a length of the fin. In a method broadcasting particulate or granular material over a ground surface, the spinner is preferably rotated at a speed of 900 to 1,000 rpm. The apparatus and method provide for distribution of material over greater distances and can do so without pulverizing the material, creating a uniform pattern of distribution over a 50% wider swath.

A material placer having an augmented hopper, which can receive and convey concrete or other material at a greater rate than other material placers known in the industry. The augmented hopper has a relatively large volume, a bumper structure, a hinged flop gate, and a sliding gate plate that improves the process of receiving concrete or other discharged material from delivery trucks. The hinged flop gate and/or the sliding plate can optionally be vibrated to aid in moving concrete or other material into the trough of the augmented hopper. The material placer is further configured to have ease of access for cleaning and maintenance.

An apparatus for broadcasting particulate or granular material over a ground surface involves a variable speed spinner and a material conveyor. The spinner is positioned generally horizontally below a discharge end of a material conveyor. The spinner has a disk having a generally radially disposed fin fixed to an upper side of the disk and radiating outwardly from a center of the disk. The spinner is positioned to receive material from the material conveyor at a location about half way along a length of the fin. In a method broadcasting particulate or granular material over a ground surface, the spinner is preferably rotated at a speed of 900-1000 rpm. The apparatus and method provide for distribution of material over greater distances and can do so without pulverizing the material, creating a uniform pattern of distribution over a 50% wider swath.

A modified chip spreader is adapted to be used in a chip sealing train including a chip supply dump truck and an asphalt composition supply truck. The modified chip spreader is a self-propelled vehicle that has a receiving hopper on its front end for receiving stone chips from the chip supply dump truck, a spreader assembly on its rear end and a conveyor assembly for conveying the stone chips from the receiving hopper to the spreader assembly. The modified chip spreader also includes a spray assembly that is in fluid communication with an outlet line from the asphalt composition supply truck, which spray assembly is adapted to dispense an asphalt composition onto the surface of a roadway in front of the spreader assembly. The spreader assembly dispenses the stone chips onto the newly applied asphalt composition on the surface of the roadway.

Systems and methods for applying roadway surface treatments. The system has an aggregate application assembly and a resin application assembly that are mounted or otherwise secured to a truck or other vehicle. The resin application assembly is spaced from the aggregate application assembly in the direction of travel of the vehicle. As the vehicle moves along a roadway surface, the resin and aggregate can be continuously applied such that the aggregate is provided to portions of the roadway surface that have been covered with resin.

A spreader assembly may include a hopper configured for receiving a spreadable material, a removable cartridge configured for sliding engagement with the hopper and having a material transportation mechanism configured for receiving the spreadable material from the hopper, and a spreader configured for receiving the spreadable material from the material transportation mechanism and spreading the spreadable material onto a target surface. One of the hopper and the cartridge may include a roller having a roller surface, and the other of the hopper and the cartridge may include a bearing surface configured for rolling engagement with the roller surface. The cartridge may have one or more pull bars to facilitate removal of the cartridge from the hopper. Related methods are described.

A material transfer vehicle that is adapted to supply asphalt paving material to a paving machine on a roadway has a discharge conveyor with an input end and an output end with a discharge chute mounted thereon. A controller is operatively connected to the elevation control system and the steering control system for the discharge conveyor. The controller is adapted to communicate elevation control signals to the elevation control system for the discharge conveyor so that the elevation of the discharge conveyor may be adjusted based upon communication from the controller. The controller is also adapted to communicate steering control signals to the steering control system for the discharge conveyor so that the angular orientation of the discharge conveyor with respect to the longitudinal axis of the material transfer vehicle may be adjusted based upon communication from the controller. A paver-locating sensor is operatively connected to the controller, and is located and adapted to execute multiple non-contact sensor scan passes across the front end of the paving machine to determine the distance and orientation of the paving machine with respect to the paver-locating sensor. The paver-locating sensor is also adapted to communicate information to the controller about the distance and orientation of the paving machine with respect to the paver-locating sensor.

A material spreader for a heavy duty vehicle is provided having a hopper capable of carrying and distributing a particulate material, a longitudinally extending conveyor to move material within the hopper, a pivotably attached discharge chute and optionally, one or more liquid storage tanks secured to the exterior of the hopper by a securement system comprise a series of one or more straps connected on each end to a c-shaped cross member affixed to the vehicle or hopper body.

An apparatus for depositing associated materials, including but not limited to salt or sand, onto a surface includes a material spreader hopper, a conveyor to convey associated material in the hopper toward an opening at one end of the hopper; a feed gate adapted to selectively close the opening, an extension and a spreader adapted as described herein, to mount to the extension.