Obstruction detection device

What is claimed is: 1. An obstruction detection device for use with a truss fabrication system including a truss assembly table having spaced accessways, a controller, and a gantry press mounted on the truss assembly table for movement relative to the truss assembly table, the obstruction detection device comprising: a support structure configured for attachment to the truss assembly table having spaced accessways for movement relative to the truss assembly table; an obstruction sensor mounted on the support structure and configured to detect obstructions in the spaced accessways of the truss assembly table, the obstruction sensor having an activated state and a deactivated state; and a control system operatively connected to the obstruction sensor to activate and deactivate the obstruction sensor in response to a position of the obstruction sensor relative to the spaced accessways, wherein the control system activates the obstruction sensor when the obstruction sensor is aligned with one of the spaced accessways of the truss assembly table so that the obstruction sensor can detect obstruction in the spaced accessway and signal the controller to stop the gantry press of the truss fabrication system if an obstruction is detected, and wherein the control system deactivates the obstruction sensor when the obstruction sensor is out of alignment with the spaced accessways of the truss assembly table to prevent the obstruction sensor from stopping the gantry press of the truss fabrication system. 2. The obstruction detection device of claim 1 , wherein the control system comprises a first control sensor configured to detect when the obstruction sensor is aligned with one of the spaced accessways of the truss assembly table. 3. The obstruction detection device of claim 2 , wherein the control system further comprises a second control sensor configured to detect when the obstruction sensor is aligned with one of the spaced accessways of the truss assembly table. 4. The obstruction detection device of claim 3 , wherein the first and second control sensors are configured to detect the presence or absence of a target in order to determine whether the obstruction sensor is aligned with one of the spaced accessways of the truss assembly table. 5. The obstruction detection device of claim 3 , wherein the support structure comprises a frame including a first leg and a second leg, the obstruction sensor, the first control sensor, and the second control sensor being mounted on the first leg of the frame. 6. The obstruction detection device of claim 5 , further comprising an upper sensor mounted on the first leg of the frame at a position above the obstruction sensor, the upper sensor being configured to detect obstructions above the table. 7. The obstruction detection device of claim 6 , further comprising a plurality of cover plates, each of the cover plates being mounted on a respective one of the obstruction sensor, the first control sensor, the second control sensor, and the upper sensor to protect the sensors. 8. The obstruction detection device of claim 1 , wherein the support structure is configured to move upon contact with an obstruction. 9. The obstruction detection device of claim 1 , wherein the support structure comprises a collapsible bumper. 10. A truss fabrication system comprising: a truss assembly table having a first side rail, a second side rail, and at least one accessway; a gantry press mounted on the truss assembly table for movement relative to the truss assembly table; a first obstruction detection device being mounted on the gantry press; a second obstruction detection device mounted on the gantry press opposite the first obstruction detection device, each of the first and second obstruction detection devices comprising: a support structure attached to the gantry press for movement with the gantry press along the truss assembly table; an obstruction sensor connected to the support structure and configured to detect obstructions in the at least one accessway of the table, the obstruction sensor having an activated state and a deactivated state; and a control system operatively connected to the obstruction sensor for activating and deactivating the obstruction sensor in response to a position of the obstruction sensor relative to the at least one accessway, wherein the control system activates the obstruction sensor when the obstruction sensor is aligned with the at least one accessway of the truss assembly table so that the obstruction sensor can detect obstruction in the spaced accessway, and wherein the control system deactivates the obstruction sensor when the obstruction sensor is out of alignment with the at least one accessway of the truss assembly table to prevent the obstruction sensor from stopping the gantry press of the truss fabrication system; and the control system further comprising a controller configured to stop movement of the gantry press along the truss assembly table when an obstruction is detected in the at least one accessway of the truss assembly table by the obstruction sensor. 11. The truss fabrication system of claim 10 , wherein the control system of each of the first and second obstruction detection devices comprises a first control sensor configured to detect when the obstruction sensor is aligned with the at least one accessway of the truss assembly table. 12. The truss fabrication system of claim 11 , wherein the control system of each of the first and second obstruction detection devices further comprises a second control sensor configured to detect when the obstruction sensor is aligned with the at least one accessway of the truss assembly table. 13. The truss fabrication system of claim 12 , wherein the first and second control sensors of each of the first and second obstruction detection devices are configured to detect the presence or absence of the respective first and second side rails of the table in order to determine whether the obstruction sensor is aligned with the at least one accessway of the truss assembly table. 14. The truss fabrication system of claim 12 , wherein the support structure of each of the first and second obstruction detection devices comprises a frame including a first leg and a second leg, the obstruction sensor, the first control sensor, and the second control sensor being mounted on the first leg of the frame. 15. The truss fabrication system of claim 14 , wherein each of the first and second obstruction detection devices further comprises an upper sensor mounted on the first leg of the frame at a position above the obstruction sensor, the controller being configured to stop movement of the gantry press along the truss assembly table when an obstruction is detected by the upper sensor. 16. The truss fabrication system of claim 12 , wherein the support structure of each of the first and second obstruction detection devices comprises a collapsible bumper, the obstruction sensor, the first control sensor, and the second control sensor being mounted on the collapsible bumper. 17. The truss fabrication system of claim 10 , wherein the obstruction sensor of the first obstruction detection device cooperates with the obstruction sensor of the second detection device to detect obstructions in the at least one accessway of the truss assembly table, such that when the obstruction sensors of the first and second obstruction detection devices are activated, a light curtain is formed therebetween and the controller stops movement of the gantry press along the truss assembly table if an obstruction interrupts the light curta