Adaptive hot melt feed

The invention claimed is: 1. An adaptive hot melt feed system comprising: a melt system including a heated vessel; a feed system for delivering a solid material to the vessel of the melt system for melting; a gas control device configured to control a supply of gas provided to the feed system to drive the solid material from the feed system to the melt system; a sensor configured to detect when an amount of material in the vessel of the melt system reaches a fill capacity level; and a controller in electronic communication with the gas control device and programmed to determine a fill metric and to signal the gas control device to turn the supply of gas on and off and to vary the supply of gas to the feed system based on the fill metric; wherein the gas is supplied to the feed system during a plurality of feed intervals, wherein each feed interval is a discrete time period beginning when the supply of gas is turned on to drive the solid material to the melt system and ending when the fill capacity level is detected by the sensor and the supply of gas is turned off, and wherein the fill metric comprises a duration of at least one feed interval of the plurality of feed intervals, such that the supply of gas specified by the controller is responsive to changes in the plurality of feed intervals. 2. The system of claim 1 , wherein the gas control device is a regulator selected from a group consisting of a voltage-to-pressure electronic regulator, a current-to-pressure electronic regulator, and a solenoid valve, wherein the solenoid valve is configured to deliver a pulse width modulated flow of gas to the feed system. 3. The system of claim 1 , wherein the fill metric comprises a quantitative measure of solid material delivered to the melt system. 4. The system of claim 1 , wherein the melt system further comprises: a pump configured to discharge a volume of melted material from the melt system, and wherein the fill metric comprises the volume of melted material discharged between feed intervals of the plurality of feed intervals. 5. The system of claim 1 , wherein the controller sends a signal to the gas control device to increase or decrease the supply of gas to the feed system and wherein each signal sent to the gas control device is based on the fill metric determined in a preceding fill cycle, wherein a fill cycle extends from a start of one feed interval to a start of an immediately subsequent feed interval. 6. The system of claim 1 , wherein the fill metric is a cumulative duration of a current feed interval and wherein the controller sends a signal to the gas control device to maintain or increase the supply of gas to the feed system based on the cumulative duration of the current feed interval. 7. The system of claim 1 , wherein the controller is programmed to signal the gas control device to supply gas to the feed system when an amount of solid and melted material in the melt system vessel reaches a minimum value and is configured to signal the gas control device to stop the supply of gas to the feed system when an amount of solid and melted material in the melt system vessel reaches a maximum value. 8. The system of claim 7 , wherein the sensor is configured to detect a surface level of solid and melted material in the melt system vessel. 9. The system of claim 1 , wherein the controller sends a signal to the gas control device to increase or decrease the supply of gas to the feed system and wherein increasing and decreasing the supply of gas comprises increasing and decreasing a pressure of gas. 10. The system of claim 1 , wherein the controller sends a signal to the gas control device to increase or decrease the supply of gas to the feed system and wherein increasing and decreasing the supply of gas comprises increasing and decreasing a duty cycle, wherein a pressure of the gas supplied remains constant. 11. A method of supplying a solid hot melt material to a melt system, the method comprising: supplying a gas to a feed system to drive the solid material to the melt system, the melt system including a heated vessel; using a sensor to detect when an amount of material in the heated vessel of the melt system reaches a fill capacity level; and determining a fill metric; signaling a gas control device to increase, decrease, or maintain the gas supplied to the feed system to control the delivery of solid material from the feed system to the melt system, wherein a controller is in electronic communication with the gas control device and is programmed to determine the fill metric and to signal the gas control device to turn the supply of gas on and off and to vary the supply of gas to the feed system based on the fill metric; wherein the fill metric is automatically determined by the controller and wherein the controller signals the gas control device to increase, decrease, or maintain the gas supplied based on the fill metric; and wherein the gas is supplied to the feed system during a plurality of feed intervals, wherein each feed interval is a discrete time period beginning when the supply of gas is turned on to drive the solid material to the melt system and ending when the fill capacity level is detected by the sensor and the supply of gas is turned off, and wherein the fill metric comprises a duration of at least one feed interval of the plurality of feed intervals, such that the supply of gas specified by the controller is responsive to changes in the plurality of feed intervals. 12. The method of claim 11 , and further comprising determining at least one of an additional fill metric selected from the group comprising: a cumulative duration of the feed interval in progress and before solid material has been delivered to the melt system in an amount necessary to reach the fill capacity level; and an amount of solid material delivered to the melt system in the feed interval in the amount necessary to reach the fill capacity level. 13. The method of claim 12 , wherein the controller: determines optimized fill metrics; and compares the fill metrics previously determined to the optimized fill metrics; and signals the gas control device to increase, decrease, or maintain the gas supplied to the feed system during subsequent feed intervals to obtain the optimized fill metrics. 14. The method of claim 13 , wherein increasing the gas supplied reduces the duration of the next feed interval and decreasing the gas supplied increases the duration of the next feed interval. 15. The method of claim 12 , wherein the controller signals the gas control device to increase or maintain the gas supplied to the feed system during a current feed interval based on the cumulative duration of the feed interval in progress. 16. The method of claim 12 , wherein increasing and decreasing the gas supplied to the feed system comprises increasing and decreasing a pressure of the gas supplied. 17. The method of claim 12 , wherein the gas is supplied to the feed system as a pulse width modulated flow, wherein increasing and decreasing the gas supplied to the feed system comprises increasing and decreasing a duty cycle. 18. The method of claim 12 , wherein measuring an amount of solid material delivered to the melt system comprises determining a volume of melted material discharged from a pump of the melt system.