Closure devices including incremental release mechanisms and methods therefor

What is claimed is: 1. A reel for use with a lacing system for tightening an article comprising: a housing having an interior region; a spool positioned within the interior region of the housing and rotatable relative thereto, the spool having an annular channel formed therein; a knob rotatable relative to the housing and operably coupled with the spool to cause the spool to rotate within the interior region of the housing; wherein: incremental rotation of the knob in a first direction relative to the housing causes a corresponding incremental rotation of the spool within the interior region of the housing that incrementally gathers a tension member in the annular channel formed in the spool; and incremental rotation of the knob in a second direction relative to the housing causes a corresponding incremental rotation of the spool that incrementally releases the tension member from the annular channel formed in the spool; and a stop mechanism that is configured to prevent rotation of the spool in the second direction in response to a tension of the lace being reduced to a tension threshold or beyond the tension threshold, the knob being rotatable in the second direction while rotation of the spool in the second direction is prevented via the stop mechanism. 2. The reel of claim 1 , wherein the stop mechanism is configured to engage in response to the tension of the lace being reduced to the tension threshold or beyond the tension threshold, and wherein engagement of the stop mechanism prevents the spool from rotating in the second direction. 3. The reel of claim 2 , wherein the spool is axially moveable within the interior region of the housing, and wherein axial movement of the spool within the interior region effects engagement and disengagement of the stop mechanism. 4. The reel of claim 2 , wherein the stop mechanism is moveable between an engaged state and a disengaged state, wherein the stop mechanism is configured to move into the engaged state when the tension of the lace is reduced to the tension threshold or beyond the tension threshold, and wherein the stop mechanism is configured to move into the disengaged state when the knob is rotated in the first direction. 5. The reel of claim 2 , further comprising a spring component that biases the stop mechanism toward engagement. 6. The reel of claim 1 , wherein the stop mechanism comprises one or more of the following: teeth; a rubber gasket; an abrasive material; or a tacky material. 7. The reel of claim 1 , wherein the stop mechanism comprises: a first set of teeth that are positioned on a bottom surface of the interior region of the housing; and a second set of teeth that are positioned on a bottom flange of the spool, the spool being axially moveable within the interior region of the housing such that when the lace tension decreases beyond the tension threshold, the spool moves axially downward within the interior region of the housing to engage the first set of teeth and the second set of teeth and thereby prevent rotation of the spool in the second direction. 8. The reel of claim 1 , further comprising a release mechanism that is configured upon actuation to enable the tension member to be automatically released from the annular channel formed in the spool by allowing free rotation of the spool in the second direction. 9. A closure system for tightening an article comprising: a housing having an interior region; a tensioning mechanism that is configured to tension a tension member and thereby tighten the article; a first mechanism that is transitionable between an engaged state and a disengaged state, wherein: in the engaged state, the first mechanism allows the tension member to be incrementally tensioned via a first operation of the tensioning mechanism while preventing loosening of the tension member's tension, and in the disengaged state, the first mechanism allows the tension member's tension to be incrementally loosened via a second operation of the tensioning mechanism; and a second mechanism that is transitionable between an engaged state and a disengaged state, wherein: in the disengaged state, the second mechanism allows the tension member's tension to be incrementally tensioned via the first operation of the tensioning mechanism and to be incrementally loosened via the second operation of the tensioning mechanism; and in the engaged state, the second mechanism prevents the tension member's tension from being incrementally loosened via the second operation of the tensioning mechanism, the second mechanism being transitionable from the disengaged state to the engaged state in response to the tension member's tension being reduced to a tension threshold or beyond the tension threshold and the second mechanism remaining in the disengaged state while the tension member's tension is greater than the tension threshold. 10. The closure system of claim 9 , wherein the first mechanism is transitionable from the engaged state to the disengaged state via the second operation of the tensioning mechanism. 11. The closure system of claim 9 , further comprising a third mechanism that is transitionable between an engaged state and a disengaged state, wherein: in the engaged state, the third mechanism allows the tension member's tension to be incrementally tensioned via the first operation of the tensioning mechanism and to be incrementally loosened via the second operation of the tensioning mechanism; and in the disengaged state, the third mechanism allows the tension member's tension to be automatically loosened. 12. The closure system of claim 11 , wherein the third mechanism is transitionable between the engaged state and the disengaged state via a third operation of the tensioning mechanism. 13. The closure system of claim 9 , wherein the second mechanism comprises engagement of one or more of the following: teeth; a rubber gasket; an abrasive material; or a tacky material. 14. A method for configuring a reel for use with a lacing system for tightening an article, the method comprising: providing a housing having an interior region; positioning a spool within the interior region of the housing so that the spool is rotatable relative to the housing; operably coupling a knob with the spool to cause the spool to rotate within the interior region of the housing upon rotation of the knob, the knob being rotatable relative to the housing; wherein: incremental rotation of the knob in a first direction causes a corresponding incremental rotation of the spool within the interior region of the housing that winds or gathers a tension member about the spool; and incremental rotation of the knob in a second direction causes a corresponding incremental rotation of the spool that incrementally releases the tension member from about the spool; and configuring the reel with a stop mechanism that is configured to prevent rotation of the spool in the second direction in response to a tension of the lace being reduced to a tension threshold or beyond the tension threshold, the stop mechanism being further configured so that the knob is rotatable in the second direction while rotation of the spool in the second direction is prevented. 15. The method of claim 14 , wherein engagement of the stop mechanism prevents the spool from rotating in the second direction. 16. The method of claim 15 , wherein the spool is axially moveable within the interior region of the housing, and wherein axial movement of the spool within the interior region effects engagement and disengagement of the stop mechanism. 17. T