Three-dimensional printing system with integrated scan module calibration

What is claimed: 1. A three-dimensional printing system having a laser module for generating a beam for solidifying a photocurable resin in a layer-by-layer manner at a build plane comprising: a scan module for receiving the light beam and scanning the light beam along two axes to address the build plane; a transparent plate positioned in the optical path between the scan module and the build plane; a reflective feature disposed on the transparent plate with a known location; a sensor above the transparent plate positioned to receive light reflected from the reflective feature; and a controller configured to: operate the scan module to scan the light beam across the build plane; receive a signal from the sensor when the light beam impinges upon the reflective feature; and analyze the signal to verify a proper alignment of the light beam to the build plane. 2. The three-dimensional printing system of claim 1 wherein the reflective feature includes an array of reflective features. 3. The three-dimensional printing system of claim 1 further comprising a housing for protecting the scan module from vapors generated during solidification of the photocurable resin, the housing having an opening for allowing the light beam to reach the build plane, the opening is closed by the transparent plate which provides a dual function of blocking the vapors and providing the reflective feature for calibration. 4. The three-dimensional printing system of claim 3 further comprising a resin vessel containing the photocurable resin. 5. The three-dimensional printing system of claim 4 wherein the resin vessel includes a motorized build platform, the build plane is defined proximate to an upper surface of the photocurable resin. 6. The three-dimensional printing system of claim 5 wherein the controller is configured to operate the scan module and the motorized platform to manufacture a three-dimensional article. 7. The three-dimensional printing system of claim 6 wherein the controller is configured to verify alignment in real time while manufacturing the three-dimensional article. 8. The three-dimensional printing system of claim 6 further comprising an inclinometer mounted in fixed relation to the transparent plate, the controller is configured to receive a signal from the inclinometer to determine a tilt angle of the housing. 9. The three-dimensional printing system of claim 8 wherein the controller is further configured to provide instructions to a user for leveling the housing. 10. The three-dimensional printing system of claim 8 wherein the controller is further configured to compensate for the tilt angle while manufacturing the three-dimensional article. 11. The three-dimensional printing system of claim 1 wherein the reflective feature is a dot having a axial dimension, the light beam impinging on the transparent plate with an impinging diameter that is at least ten times the axial dimension of the dot. 12. The three-dimensional printing system of claim 11 wherein the impinging diameter is at least 100 times the axial dimension of the dot. 13. The three-dimensional printing system of claim 1 wherein the reflective feature is disposed below the transparent plate so that light reflected from the reflective feature passes through the transparent plate. 14. The three-dimensional printing system of claim 13 wherein the controller determines a power level of light reaching the sensor. 15. The three-dimensional printing system of claim 14 wherein the controller estimates an effect of a resin film that has accumulated on a lower side of the transparent plate based upon the power level determination. 16. The three-dimensional printing system of claim 15 wherein the controller adjusts a level of energy delivered by the laser module in compensation for an attenuation loss through the resin film. 17. The three-dimensional printing system of claim 15 wherein the controller sends an alert or message to a user interface when an attenuation of the resin film reaches a threshold level.