Asphalt paving machine operational reporting system

What is claimed is: 1. An asphalt paving machine comprising: (a) a drive system that is operated to move the paving machine across a surface to be paved; (b) an asphalt receiving hopper which is adapted to receive asphalt paving material; (c) a distributing auger; (d) a hopper conveyor that is adapted to transport the asphalt paving material from the asphalt receiving hopper to the distributing auger, said hopper conveyor comprising: (i) a hopper conveyor motor; (ii) a speed sensor that is associated with the hopper conveyor motor and adapted to measure the rate of rotation of the hopper conveyor motor; (e) a vertically-adjustable flow gate that is associated with the hopper conveyor and adapted to define the size of the gate opening from the asphalt receiving hopper to the distributing auger, said flow gate further comprising a flow gate position sensor that is adapted to determine the vertical position of the flow gate; (f) a controller including a timer, said controller being: (i) operatively connected to the drive system for moving the paving machine across the surface to be paved and adapted to receive a machine speed signal indicating the speed at which the paving machine is moving across the surface to be paved; (ii) operatively connected to the speed sensor that is associated with the hopper conveyor motor and adapted to receive a conveyor speed signal indicating the speed of the hopper conveyor; (iii) operatively connected to the flow gate position sensor and adapted to receive a flow gate signal indicating the vertical position of the flow gate; (iv) adapted to use the machine speed signal, the conveyor speed signal and the flow gate signal to measure the amount of asphalt paving material delivered to the distributing auger per unit of time; (g) a material sensor that is attached to the vertically-adjustable flow gate, said material sensor: (i) being operatively connected to the controller and adapted to signal to the controller if asphalt paving material is passing under the flow gate; (ii) having an arm that extends below the bottom of the flow gate, said arm being adapted to pivot upwardly when asphalt paving material is struck off by the flow gate; (iii) having a switch that is configured to be actuated when the arm of the material sensor pivots upwardly in order to signal the controller that asphalt paving material is passing under the flow gate. 2. The asphalt paving machine of claim 1 wherein the controller is operatively connected to an onboard viewing screen which is adapted to display to an operator the amount of asphalt paving material delivered to the distributing auger per unit of time. 3. The asphalt paving machine of claim 1 wherein the controller is operatively connected to a wireless transmitter which is adapted to transmit to an external receiver the amount of asphalt paving material delivered to the distributing auger per unit of time. 4. The asphalt paving machine of claim 1 wherein the controller is adapted to: (a) measure the time during which asphalt paving material is delivered to the distributing auger; (b) calculate the distance traveled by the paving machine while asphalt paving material is being delivered to the distributing auger. 5. The asphalt paving machine of claim 1 wherein: (a) the vertically-adjustable flow gate includes a linear actuator for moving the flow gate substantially vertically to any of various positions between an upper position that maximizes the size of the gate opening from the asphalt receiving hopper and a lower position that minimizes the gate opening from the asphalt receiving hopper; (b) the controller is operatively attached to the linear actuator and adapted to move the flow gate to a vertical position that is selected by an operator of the paving machine. 6. The asphalt paving machine of claim 1 wherein the controller is adapted to: (a) measure the time during which asphalt paving material is delivered to the distributing auger; (b) receive a “start” input signal from an operator that is associated with the beginning of use of a selected wear item of the asphalt paving machine; (c) measure the tonnage of asphalt paving material delivered to the distributing auger during the period of use of the selected wear item. 7. The asphalt paving machine of claim 6 wherein the controller is adapted to measure the machine operating time during the period of use of the selected wear item. 8. An asphalt paving machine comprising: (a) a drive system that is operated to move the paving machine across a surface to be paved; (b) an asphalt receiving hopper which is adapted to receive asphalt paving material; (c) a distributing auger; (d) a hopper conveyor that is adapted to transport the asphalt paving material from the asphalt receiving hopper to the distributing auger, said hopper conveyor comprising: (i) a hopper conveyor motor; (ii) a speed sensor that is associated with the hopper conveyor motor and adapted to measure the rate of rotation of the hopper conveyor motor; (e) a vertically-adjustable flow gate that is associated with the hopper conveyor and adapted to define the size of the gate opening from the asphalt receiving hopper to the distributing auger, said flow gate further comprising a flow gate position sensor that is adapted to determine the vertical position of the flow gate; (f) a controller including a timer, said controller being: (i) operatively connected to the drive system for moving the paving machine across the surface to be paved and adapted to receive a machine speed signal indicating the speed at which the paving machine is moving across the surface to be paved; (ii) operatively connected to the speed sensor that is associated with the hopper conveyor motor and adapted to receive a conveyor speed signal indicating the speed of the hopper conveyor; (iii) operatively connected to the flow gate position sensor and adapted to receive a flow gate signal indicating the vertical position of the flow gate; (iv) adapted to use the machine speed signal, the conveyor speed signal and the flow gate signal to measure the amount of asphalt paving material delivered to the distributing auger per unit of time; (v) adapted to receive a coefficient of efficiency for the hopper conveyor; (vi) adapted to use the coefficient of efficiency in measuring the amount of asphalt paving material delivered to the distributing auger per unit of time. 9. An asphalt paving machine comprising: (a) a drive system that is operated to move the paving machine across a surface to be paved; (b) an asphalt receiving hopper which is adapted to receive asphalt paving material, said asphalt receiving hopper being defined by: (i) a left sidewall; (ii) a right sidewall; (iii) a left rear wall; and (iv) a right rear wall; (c) a distributing auger; (d) a left hopper conveyor that is adapted to transport the asphalt paving material from the asphalt receiving hopper to the distributing auger, said left hopper conveyor comprising: (i) a left hopper conveyor motor; (ii) a speed sensor that is associated with the left hopper conveyor motor and adapted to measure the rate of rotation of the left hopper conveyor motor; (iii) a vertically-adjustable left flow gate that is located adjacent the left rear wall of the asphalt receiving hopper and is adapted to define the size of the left gate opening from the asphalt receiving hopper to the distributing auger, said left flow gate further comprising a left flow gate position sensor that is adapted to determine the vertical position of the left flow gate; (e) a right hopper conveyor that is adapted to transport the asphalt paving material from the asphalt receiving hopper to the distributing