Slack line detection systems for winches

The invention claimed is: 1. A winch comprising: a first end frame and a second end frame; a drum located between and rotatably coupled to the first and second end frames and configured to rotate to wind or unwind a cable; a brake configured to resist rotation of the drum when engaged; a switch coupled to the first end frame configured to cause the brake to engage the drum when the switch is activated; a slack arm frame having a first end engaged with the cable and a second end pivotally coupled to the first and second end frames, wherein the slack arm frame is pivotable about an axis between a first position when the cable is taut and a second position when the cable is slack, wherein the axis extends through the first and second end frames; a cam having an arcuate camming surface coupled to the slack arm frame and the first frame end, with the first frame end located between the slack arm frame and the cam, wherein the cam is rotatable with the slack arm frame about the axis to activate the switch when the slack arm frame is in the second position; and a mounting bracket coupling the switch to the first end frame, wherein the mounting bracket is adjustable between a plurality of locations on the first end frame by loosening and tightening a single fastener, each of the plurality of locations positioning the switch at a different distance from the axis. 2. The winch of claim 1 , further comprising a motor configured to drive rotation of the drum in response to being supplied with a flow of compressed fluid; wherein the switch is configured to interrupt the flow of compressed fluid to the motor when the switch is activated. 3. The winch of claim 1 , wherein: the first end frame comprises an elongated slot; and the mounting bracket comprises a dowel pin received in the elongated slot, the dowel pin and the single fastener cooperating to secure the mounting bracket to the first end frame. 4. The winch of claim 1 , wherein the slack arm frame is adjustable relative to the cam between (i) a vertical takeoff orientation in which the slack arm frame, when in the first position, extends away from the drum at an angle between 80 and 100degrees to a surface supporting the winch and (ii) a horizontal takeoff orientation in which the slack arm frame, when in the first position, extends away from the drum at an angle between −10and 10 degrees to the surface supporting the winch. 5. The winch of claim 1 , wherein the slack arm frame comprises: a first lever arm pivotally couplable to the first end frame or the second end frame and extending away from the drum toward the first end of the slack arm frame; a second lever arm pivotally couplable to the second end frame or the first end frame and extending away from the drum toward the first end of the slack arm frame; a roller assembly coupled between the first and second lever arms at the first end of the slack arm frame, wherein the cable passes through the roller assembly; and a first drop stop coupled to the first lever arm and extending toward the first or second end frame, the first drop stop being configured to engage the first or second end frame when the slack arm frame pivots from the first position to the second position to prevent further pivoting of the slack arm frame. 6. The winch of claim 5 , wherein the slack arm frame further comprises a second drop stop coupled to the first or second lever arm and extending toward the second end frame, the first or second drop stop being configured to engage the second end frame when the slack arm frame pivots from the first position to the second position to prevent further pivoting of the slack arm frame. 7. The winch of claim 5 , wherein the first drop stop includes a screw coupled to a nut, the screw being configured to engage the first or second end frame when the slack arm frame pivots from the first position to the second position. 8. The winch of claim 5 , wherein the slack arm frame is adjustable between: a forward orientation in which the first lever arm is pivotally coupled to the first end frame, the second lever arm is pivotally coupled to the second end frame, and the first and second lever arms pivot toward a front side of the winch when the slack arm frame pivots from the first position to the second position; and a reverse orientation in which the first lever arm is pivotally coupled to the second end frame, the second lever arm is pivotally coupled to the first end frame, and the first and second lever arms pivot toward a back side of the winch when the slack arm frame pivots from the first position to the second position, the back side of the winch being opposite the front side of the winch. 9. The winch of claim 5 , wherein the first lever arm includes a tool hole sized to receive a tool to prevent pivoting of the slack arm frame.