Stencil printer cover having movable door with closing feature

What is claimed is: 1 . A stencil printer for printing an assembly material on an electronic substrate, the stencil printer comprising: a frame; a stencil coupled to the frame, the stencil having apertures formed therein; a support assembly coupled to the frame, the support assembly being configured to support the electronic substrate in a print position beneath the stencil; a print head gantry coupled to the frame; a print head assembly supported by the print head gantry in such a manner that the print head assembly is configured to traverse the stencil during print strokes, the print head assembly including a print head having a squeegee blade assembly configured to roll solder paste along the stencil; a cover coupled to the frame to enclose operating components of the stencil printer, including the stencil, the support assembly, the print head gantry and the print head assembly, the cover being hingedly mounted to the frame of the stencil printer and movable between a closed position and an open position, the cover including an elongate opening formed therein and a movable door configured to selectively close the elongate opening, the elongate opening being sized to enable the stencil and/or a tooling tray to pass through, the movable door being slidably coupled to the cover to enable movement of the movable door with respect to the cover between the closed position and the open position; a controller coupled to the movable door, the controller being configured to control movement of the movable door between a closed position and an open position; and a sensor assembly proximate the elongate opening, the sensor assembly being coupled to the controller and configured to detect an object within the elongate opening when moving the movable door to the closed position, wherein the sensor is configured to generate a signal to the controller when detecting an object within the elongate opening, wherein the controller, upon receiving the signal from the sensor, is configured to move the movable door to the open position, and wherein the sensor assembly includes a linear resistive pressure sensor configured to detect a force created by the object when engaging the linear resistive pressure sensor. 2 . The stencil printer of claim 1 , wherein the sensor assembly further includes a foam or soft laminate disposed on the linear resistive pressure sensor. 3 . The stencil printer of claim 1 , wherein the linear resistive pressure sensor is coupled to a conversion PCB and configured to generate a pressure sensor feedback interrupt signal when detecting the force created by the object. 4 . The stencil printer of claim 3 , wherein the conversion PCB is coupled to an automated machine personal computer PC, pneumatic controls, and a servo/stepper motor controller associated with the movable door. 5 . The stencil printer of claim 4 , wherein the conversion PCB is configured to generate a signal to the automated machine PC and a signal to the servo/stepper motor controller. 6 . The stencil printer of claim 5 , wherein a CAN BUS is provided to enable bi-directional communication between the automated machine PC and the servo/stepper motor controller. 7 . The stencil printer of claim 1 , wherein the movable door includes a movable door frame and at least one panel secured to the movable door frame. 8 . The stencil printer of claim 7 , wherein the cover further includes two linear slides mounted on the cover frame of the cover, and wherein the movable door further includes a mounting bracket secured to the movable door frame of the movable door. 9 . The stencil printer of claim 8 , wherein the cover further includes a first linear slide secured to the cover frame of the cover on one side of the movable door and a second linear slide secured to the cover frame of the cover on the other side of the movable door. 10 . The stencil printer of claim 9 , wherein the movable door further includes at least one first mounting bracket secured to the movable door frame of the movable door on one side of the movable door and at least one second mounting bracket secured to the movable door frame of the movable door on the other side of the movable door. 11 . The stencil printer of claim 1 , wherein the cover further includes a pneumatic interlock assembly to secure the position of the movable door in the closed position. 12 . The stencil printer of claim 11 , wherein the pneumatic interlock assembly includes a switch to ensure that the movable door is in a closed position prior to operating the stencil printer. 13 . The stencil printer of claim 1 , wherein the movable door is configured to be moved by at least one lift bracket associated with a movable cart. 14 . The stencil printer of claim 1 , wherein the movable door includes an access panel hingedly mounted to a frame of the movable door, the access panel being configured to be manipulated manually between open and closed positions. 15 . The stencil printer of claim 1 , wherein the movable door includes an assembly configured to provide a resistance to a downward movement of the movable door. 16 . A method of presenting a stencil or items within a stencil printer, the method comprising: inserting the stencil into and/or removing a tooling tray from an elongate opening provided in a cover of the stencil printer; closing a movable door configured to close the elongate opening; detecting an object within the elongate opening when moving the movable door to the closed position; and opening the movable door upon detecting the object, wherein detecting the object within the elongate opening includes generating a signal to a controller of the stencil printer, the controller being configured to move the movable door to the open position, wherein detecting the object within the elongate opening is performed by a sensor assembly coupled to the controller, and wherein the sensor assembly includes a linear resistive pressure sensor configured to detect a force created by the object when engaging the linear resistive pressure sensor. 17 . The method of claim 16 , further comprising cushioning the object. 18 . The method of claim 17 , wherein the object is cushioned by a foam laminate disposed on the linear resistive pressure sensor. 19 . The method of claim 16 , wherein the linear resistive pressure sensor is coupled to a conversion PCB and configured to generate a pressure sensor feedback interrupt signal when detecting the force created by the object. 20 . The method of claim 19 , wherein the conversion PCB is coupled to an automated machine personal computer PC pneumatic controls associated with the movable door, and a servo/stepper motor controller associated with the movable door. 21 . The method of claim 20 , wherein the conversion PCB is configured to generate a signal to the automated machine PC and a signal to the servo/stepper motor controller. 22 . The method of claim 21 , wherein a CAN BUS is provided to enable bi-directional communication between the automated machine PC and the servo/stepper motor controller.