Rake rotor height control

What is claimed is: 1. An agricultural implement, comprising: a frame; at least one rake moveably coupled to the frame and comprising a plurality of tine arms, a plurality of tines connected to the plurality of tine arms, and a rotor drive configured to rotate the plurality of tine arms; and an adjustment system configured to adjust a rake height of the at least one rake, the adjustment system comprising: at least one actuator connected to the frame and configured to adjust the rake height; an electronic control unit operably connected to the at least one actuator; and at least one dust sensor supported by the frame and operably connected to the electronic control unit, wherein the at least one dust sensor is configured to monitor a dust level and communicate dust level data to the electronic control unit, and the electronic control unit is configured to correspondingly adjust the rake height based upon the dust level data. 2. The agricultural implement of claim 1 , wherein the at least one dust sensor is configured to indirectly monitor the rake height by monitoring the dust level to enable the electronic control unit to one of raise or lower the at least one rake upon determining that the dust level is one of above or below a predetermined threshold value. 3. The agricultural implement of claim 2 , wherein the adjustment system further includes an elongated mount that mounts the at least one dust sensor vertically above the plurality of tine arms of the at least one rake. 4. The agricultural implement of claim 1 , wherein the electronic control unit is configured to automatically set and maintain a desired rake height by at least one of raising the at least one rake, lowering the at least one rake, or maintaining the desired rake height upon determining that the dust level is one of above, below, or at a predetermined threshold value. 5. The agricultural implement of claim 2 , wherein the at least one dust sensor is in the form of at least one optical sensor that is configured to provide a dust level signal to the electronic control unit to enable the electronic control unit to adjust the at least one actuator based upon the dust level signal. 6. The agricultural implement of claim 5 , wherein the at least one optical sensor is in the form of a first optical sensor and a second optical sensor in communication with the first optical sensor, the first optical sensor is mounted adjacent to a central portion of the frame, and the second optical sensor is mounted adjacent to an end of a respective tine arm of the plurality of tine arms of the at least one rake. 7. The agricultural implement of claim 1 , wherein the adjustment system further includes at least one sensor supported by the frame and operably coupled to the electronic control unit. 8. The agricultural implement of claim 7 , wherein the at least one sensor is in the form of at least one vibration sensor. 9. The agricultural implement of claim 8 , wherein the at least one vibration sensor is connected to one of the rotor drive, a tine arm of the plurality of tine arms, or a tine of the plurality of tines. 10. The agricultural implement of claim 8 , further comprising a swath board, and the at least one vibration sensor is connected to the swath board to enable the at least one vibration sensor to monitor a vibration of the swath board. 11. The agricultural implement of claim 7 , wherein the at least one sensor is one of a humidity sensor, a vehicle speed sensor, a rotational speed sensor for the at least one rake, a GPS module, or a crop material density sensor. 12. An adjustment system configured to adjust a rake height for a rake of an agricultural implement, the adjustment system comprising: at least one actuator configured to adjust the rake height; an electronic control unit operably connected to the at least one actuator; and at least one dust sensor operably connected to the electronic control unit, wherein the at least one dust sensor is configured to monitor a dust level and communicate dust level data to the electronic control unit, and the electronic control unit is configured to correspondingly adjust the rake height based upon the dust level data. 13. The adjustment system of claim 12 , wherein the at least one dust sensor is configured to indirectly monitor the rake height by monitoring the dust level to enable the electronic control unit to one of raise or lower the rake upon determining that the dust level is one of above or below a predetermined threshold value. 14. The adjustment system of claim 12 , wherein the at least one dust sensor is in the form of at least one optical sensor that is configured to provide a dust level signal to the electronic control unit to enable the electronic control unit to adjust the at least one actuator based upon the dust level signal. 15. The adjustment system of claim 12 , further comprising at least one vibration sensor supported by a frame and operably coupled to the electronic control unit. 16. A method for operating an agricultural implement comprising the steps of: indirectly monitoring, by at least one dust sensor, a rake height by monitoring a dust level; communicating, by the at least one dust sensor, dust level data to an electronic control unit; and adjusting the rake height, by the electronic control unit, based upon the dust level data and upon determining that the dust level is one of above or below a predetermined threshold value. 17. The agricultural implement of claim 1 , wherein the at least one dust sensor is mounted centrally above the at least one rake, the at least one dust sensor is configured to monitor at least a portion of an upper zone of the at least one rake to enable the at least one dust sensor to provide dust level data in the form of image data of the upper zone and communicate the image data to the electronic control unit, and the electronic control unit is configured to process the image data and determine a volume of at least one of the crop material or dust. 18. The agricultural implement of claim 5 , wherein the at least one optical sensor is mounted above the plurality of tine arms and configured to monitor an upper plane of the at least one rake to enable the electronic control unit to determine an amount of dust present above the plurality of tine arms. 19. The agricultural implement of claim 1 , wherein the electronic control unit is configured to: determine the dust level exceeds a threshold dust level; and increase the rake height in response to determining that the dust level exceeds the threshold dust level. 20. The agricultural implement of claim 12 , wherein the electronic control unit is configured to: determine the dust level exceeds a threshold dust level; and increase the rake height in response to determining that the dust level exceeds the threshold dust level.