Multi-point exit device

The invention claimed is: 1. A center slide assembly for use with an exit device to control the displacement of first and second latch mechanisms, the center slide assembly comprising: a center slide having a sidewall that generally defines an inner region; a first spool assembly and a second spool assembly, each configured for displacement along at least a portion of the inner region, each of the first and second spool assemblies having a latching pin; a tilting link adjacent to a front portion of the sidewall of the center slide, the tilting link configured to be pivotally displaced from an unlocked position to a locked position and to retain the latching pin of one of the first and second spool assemblies in a jog of the tilting link when the tilting link is in the locked position, wherein the first spool assembly having a first spool, the first spool configured to be rotated about a first spindle axis of the first spool assembly, and wherein the latching pin of the first spool assembly extends from a front portion of the first spool assembly along a first axis, the first spindle axis and the first axis being separated by a first distance. 2. The center slide assembly of claim 1 , wherein the sidewall of the center slide includes guide apertures configured to receive a corresponding pin of the first and second spool assemblies, respectively, the guide apertures are oriented to guide displacement of the first and second spool assemblies along the at least a portion of the inner region of the center slide from a first position to a second position, respectively. 3. The center slide assembly of claim 2 , further including first and second pull cables, each having a first end and a second end, the first end operably connected to a corresponding one of the first and second spool assemblies, the second end configured for operable connection to a corresponding one of the first and second latch mechanisms. 4. The center slide assembly of claim 3 , wherein each of the first and second spool assemblies includes a spool and an adjustment mechanism, the adjustment mechanism having a driver component and a driven component, the driver component configured for rotational displacement about a driver axis, the driven component being adapted to be rotationally displaced by the rotational displacement of the driver component, the driven component operably connected to the spool, the spool being rotated by the rotational displacement of the driven component to adjust a tension of a corresponding one of the first and second pull cables. 5. The center slide assembly of claim 4 , wherein the driver component is a worm screw and the driven component is a worm gear. 6. The center slide assembly of claim 4 , further including a biasing element configured to exert a force to bias the tilting link to the locked position. 7. The center slide assembly of claim 1 , wherein the second spool assembly includes a second spool, an inner slide chassis, and a housing, the inner slide chassis operably attached to the housing, the inner slide chassis having a first sidewall portion and a second sidewall portion, at least a portion of the first and second sidewall portions configured for slideable displacement within the inner region, the second spool configured to be rotated about a second spindle axis of the second spool assembly, and wherein the latching pin of the second spool assembly extends from a front wall portion of the inner slide chassis along a second axis, the second spindle axis and the second axis being separated by a second distance that is larger than the first distance. 8. The center slide assembly of claim 7 , wherein the latching pin of the first spool assembly is configured to slidingly engage the tilting link to pivotally displace the tilting link from the unlocked position to the locked position. 9. A center slide assembly for use with an exit device to control displacement of a top latch mechanism and a bottom latch mechanism, the center slide assembly comprising: a center slide having a sidewall that generally defines an inner region, the sidewall having a distal end and a proximal end; an upper spool assembly configured for displacement along at least a portion of the inner region from a first position at the distal end of the sidewall to a second position, the upper spool assembly having a first latching pin; a lower spool assembly configured for displacement along at least a portion of the inner region from a first position at the proximal end of the sidewall to a second position, the lower spool assembly having a second latching pin; and a tilting link adjacent to a front portion of the sidewall of the center slide, the tilting link adapted to be pivotally displaced from an unlocked position to a locked position by sliding engagement with the first latching pin as the upper spool assembly is displaced from the first position to the second position, and to retain the second latching pin in a jog of the tilting link when the tilting link is in the locked position and the lower spool assembly is in the second position. 10. The center slide assembly of claim 9 , further including an upper pull cable and a lower pull cable, a first end of the upper pull cable connected to the upper spool assembly, a second end of the upper pull cable connected to the top latch mechanism, a first end of the lower pull cable connected to the lower spool assembly, a second end of the lower pull cable connected to the bottom latch mechanism. 11. The center slide assembly of claim of claim 10 , wherein the upper spool assembly includes a first adjustment mechanism having a first driver component and a first driven component, the first driven component being adapted to be displaced by rotational displacement of the first driver component, the first driven component operably connected to a first spool of the upper spool assembly, the first spool being rotated by the rotational displacement of the first driven component to adjust a tension of the upper pull cable. 12. The center slide assembly of claim of claim 11 , wherein the lower spool assembly includes a second adjustment mechanism having a second driver component and a second driven component, the second driven component being adapted to be displaced by rotational displacement of the second driver component, the second driven component operably connected to a second spool of the lower spool assembly, the second spool being rotated by the rotational displacement of the second driven component to adjust a tension of the lower pull cable. 13. The center slide assembly of claim 12 , wherein the first spool is configured to rotate about a first spindle axis, and wherein the first latching pin extends from a front portion of the upper spool assembly along a first latching pin axis, the first latching pin axis being offset from the first spindle axis by a first distance. 14. The center slide assembly of claim 13 , wherein the lower spool assembly includes an inner slide chassis that extends from a housing of the lower spool assembly, the second spool configured to rotate about a second spindle axis, at least a portion of the inner slide chassis configured for slideable displacement within the inner region, and wherein the second latching pin extends along a second latching pin axis from a front wall portion of the inner slide chassis, the second latching pin being offset from the second spindle axis by a second distance, the second distance being greater than the first distance. 15. A center slide assembly for use with an exit device to control displacement of a top latch mechanism and a bottom latch mechanism, the ce