Diaphragm pump with automatic priming function

The invention claimed is: 1. A pump system comprising: a diaphragm pump including (i) a shaft coupled to a diaphragm and configured to move reciprocally between a first end-of-stroke position and a second end-of-stroke position, (ii) a stroke sensor configured to sense whether the shaft has reached one of the first and second end-of-stroke positions, (iii) a pressure sensor disposed at a fluid outlet of the diaphragm pump and configured to sense a pressure of a fluid pumped by the diaphragm pump, and (iv) a solenoid valve configured to control supply of a motive fluid that causes the shaft to move between the first and second end-of-stroke positions; and a controller communicatively coupled to the diaphragm pump and configured to (i) identify whether the shaft has reached one of the first and second end-of-stroke positions using a stroke signal received from the stroke sensor, (ii) identify whether the diaphragm pump is primed by determining whether a characteristic of a pressure signal received from the pressure sensor has reached a threshold, and (iii) transmit a control signal to the solenoid valve in response to identifying that the shaft is in one of the first and second end-of-stroke positions and that the diaphragm pump is not primed, the control signal actuating the solenoid valve such that the motive fluid causes the shaft to move between the first and second end-of-stroke positions; wherein when the controller determines that the shaft has not yet reached either of the first or second end-of-stroke positions the controller repeats identifying whether the shaft has reached one of the first and second end-of-stroke positions; and a stroke counter that is incremented by the controller when either of the first or second end-of-stroke positions is detected to determine a stroke limit; wherein a prime status is detected by the controller when the characteristic of the pressure signal transmitted by the pressure sensor is received from the pressure sensor that the threshold has been reached. 2. The pump system of claim 1 , wherein the controller is configured to determine whether the characteristic of the pressure signal has reached the threshold by determining whether at least one of a differential, an average, a rolling average, a peak value, and an amplitude of the pressure signal has reached the threshold. 3. The pump system of claim 1 , wherein the controller is configured to determine whether the characteristic of the pressure signal has reached the threshold in response to identifying that the shaft has reached one of the first and second end-of-stroke positions. 4. The pump system of claim 1 , wherein the controller is further configured to: track a number of strokes of the shaft using the stroke signal received from the stroke sensor; and transmit the control signal to the solenoid valve in response to identifying (i) that the shaft is in one of the first and second end-of-stroke positions, (ii) that the diaphragm pump is not primed, and (iii) that the number of strokes of the shaft has not exceeded the stroke limit. 5. The pump system of claim 1 , wherein the controller is configured to transmit the control signal to the solenoid valve in response to identifying (i) that the shaft is in one of the first and second end-of-stroke positions, (ii) that the diaphragm pump is not primed, and (iii) that a timer of the controller has not exceeded a time limit. 6. A method of priming a diaphragm pump, the method comprising: a sensing whether a shaft coupled to a diaphragm has reached an end-of-stroke position using a stroke sensor of the diaphragm pump; b identifying, on a controller of the diaphragm pump, whether the shaft is in the end-of-stroke position using a stroke signal generated by the stroke sensor; c sensing a pressure of a pumped fluid at a fluid outlet of the diaphragm pump using a pressure sensor disposed at the fluid outlet; d actuating a solenoid valve, in response to identifying that the shaft is in the end-of-stroke position and that the diaphragm pump is not primed, to cause a motive fluid to be supplied to the diaphragm such that the shaft moves from the end-of-stroke position; e initializing a timer and a stroke counter for use in timing out the priming by the controller; f repeating the identifying, on a controller of the diaphragm pump, whether the shaft is in the end of stroke position if the controller determined that the shaft had not yet reached either of the first or second end-of-stroke positions; g incrementing the stroke counter by the controller if either of the first or second end-of-stroke positions is detected by the controller to determine a stroke limit; h determining a prime status by the controller from a received pressure signal transmitted from the pressure sensor by determining whether a characteristic of the pressure signal received from the pressure sensor has reached a threshold; and i executing the steps in sequential order a through h. 7. The method of claim 6 , wherein actuating the solenoid valve comprises actuating the solenoid valve in response to identifying (i) that the shaft is in the end-of-stroke position, (ii) that the diaphragm pump is not primed, and (iii) that a number of strokes of the shaft has not exceeded a stroke limit. 8. The method of claim 7 , further comprising executing, on the controller, an alarm protocol in response to identifying that the diaphragm pump is not primed and that the number of strokes of the shaft has exceeded the stroke limit. 9. The method of claim 6 , wherein actuating the solenoid valve comprises actuating the solenoid valve in response to identifying (i) that the shaft is in the end-of-stroke position, (ii) that the diaphragm pump is not primed, and (iii) that the timer of the controller has not exceeded a time limit. 10. The method of claim 9 , further comprising executing, on the controller, an alarm protocol in response to identifying that the diaphragm pump is not primed and that the timer of the controller has exceeded the time limit. 11. The method of claim 6 , wherein determining whether the characteristic of the pressure signal has reached the threshold comprises determining whether at least one of a differential, an average, a rolling average, a peak value, and an amplitude of the pressure signal has reached the threshold. 12. A method of automatically priming a diaphragm pump, the method comprising the steps of: a fluidly connecting the diaphragm pump to a fluid source to introduce fluid into the pump; b initiating the automatically priming the diaphragm pump function through a controller to begin drawing fluid into the pump from the fluid source; c initializing a timer and a stroke counter for use in timing out the automatic priming by the controller; d transmitting a control signal from the controller to actuate a solenoid valve which supplies motive fluid to a motive fluid chamber of the diaphragm pump moving a shaft and diaphragm from a first end-of-stroke position to a second end-of-stroke position; e determining whether the shaft has reached either the first or second end-of-stroke positions by a stroke sensor that senses a position of the shaft and generates a stroke signal associated with the sensed position; f transmitting the stroke signal from the stroke sensor to the controller; g repeating the determining whether the shaft has reached either the first or second end-of-stroke positions by the stroke sensor if the controller determined that the shaft had not yet reached either of the first or second end-of-stroke positions; h incrementing the stroke counter by the controller if either of the first or second end-of-stroke positions is detected by