Vertical rod adjustment device

What is claimed is: 1. A vertical rod coupler in combination with a vertical rod, the combination comprising: a bracket including a bracket through-hole; a bolt disposed in the bracket through-hole and including a head and a shaft, wherein the shaft includes a transverse pin; and a cam lock including a cam lock through-hole and at least one pin camming surface, wherein the cam lock through-hole is configured to receive the shaft, wherein the at least one pin camming surface is configured to cam the transverse pin to adjust a tension force in the shaft when the shaft is rotated; wherein the bracket and the cam lock are configured to apply a clamping force to the vertical rod, wherein the clamping force is based at least partly on the tension force, and wherein the bracket includes at least one channel configured to receive the vertical rod and allows a sliding motion of the vertical rod relative to the bracket. 2. The vertical rod coupler in combination with the vertical rod of claim 1 , wherein a portion of the bracket, which contacts the vertical rod, includes a material with a dry static coefficient of friction greater than 1. 3. The vertical rod coupler in combination with the vertical rod of claim 1 , wherein the at least one channel includes a first bracket channel and a second bracket channel, wherein the bracket includes a central portion positioned between the first bracket channel and the second bracket channel, and wherein the first bracket channel and the second bracket channel are configured to receive a first portion of the vertical rod and a second portion of the vertical rod, respectively. 4. The vertical rod coupler in combination with the vertical rod of claim 3 , wherein the bracket through-hole is formed in the central portion. 5. The vertical rod coupler in combination with the vertical rod of claim 1 , wherein the cam lock includes at least one depression configured to releasably capture the transverse pin to inhibit rotational movement of the shaft unless a threshold torque is applied to the shaft and/or the transverse pin. 6. The vertical rod coupler in combination with the vertical rod of claim 1 , wherein an end of the shaft includes a socket configured to receive torque from an adjustment tool. 7. The vertical rod coupler in combination with the vertical rod of claim 1 , wherein the bolt is moveable between a first rotational position and a second rotational position, wherein in the first rotational position the vertical rod is slidable relative to the bracket, and wherein in the second rotational position the vertical rod is stationary relative to the bracket. 8. The vertical rod coupler in combination with the vertical rod of claim 7 , wherein in the first rotational position, the clamping force applied to the vertical rod is below a threshold force, and wherein in the second rotational position, the clamping force applied to the vertical rod is at or above the threshold force. 9. The vertical rod coupler in combination with the vertical rod of claim 1 , further comprising a compression spring configured to apply an urging force to the bracket and the head, wherein the tension force is proportional to the urging force. 10. The vertical rod coupler in combination with the vertical rod of claim 9 , wherein the compression spring is a stacked wave disc spring. 11. The vertical rod coupler in combination with the vertical rod of claim 1 , wherein the vertical rod includes a first portion and a second portion separated by a through channel which extends along a longitudinal axis of the vertical rod. 12. The vertical rod coupler in combination with the vertical rod of claim 11 , wherein the bracket includes a central portion positioned between a first bracket channel and a second bracket channel, wherein the first bracket channel and the second bracket channel are configured to receive the first portion and the second portion of the vertical rod, respectively. 13. The vertical rod coupler in combination with the vertical rod of claim 12 , wherein the central portion is disposed in the through channel, and wherein the bracket through-hole is formed in the central portion. 14. A vertical rod latching device for a door, the vertical rod latching device comprising: a latch moveable between an engaged and a disengaged position; an actuator moveable between an actuated position and an unactuated position, wherein in the actuated position, the actuator moves the latch to the disengaged position, and wherein in the unactuated position, the actuator moves the latch to the engaged position; a vertical rod configured to transmit reciprocal force; and a vertical rod coupler configured to selectively couple the actuator to the vertical rod, wherein the vertical rod coupler comprises: a bolt moveable between a first rotational position and a second rotational position, wherein when the bolt is in in the first rotational position, the vertical rod is decoupled from the actuator, and wherein when the bolt is in the second rotational position, the vertical rod is coupled to the actuator, a bracket including a bracket through-hole, wherein the bolt is disposed in the bracket through-hole, and wherein the bolt includes a head and a shaft, wherein the shaft includes a transverse pin, and a cam lock including a cam lock through-hole and at least one pin camming surface, wherein the cam lock through-hole is configured to receive the shaft, wherein the at least one pin camming surface is configured to cam the transverse pin to adjust a tension force in the shaft when the bolt is rotated between the first rotational position and the second rotational position, wherein the bracket and the cam lock are configured to apply a clamping force to the vertical rod, wherein the clamping force is based at least partly on the tension force. 15. The vertical rod latching device of claim 14 , wherein when the bolt is in the first rotational position, the vertical rod is free to move under force of gravity relative to the vertical rod coupler. 16. The vertical rod latching device of claim 14 , wherein the latch includes a biasing member, and wherein when the bolt is in the first rotational position, the vertical rod is free to move under force of the biasing member relative to the vertical rod coupler. 17. The vertical rod latching device of claim 14 , wherein the bolt is accessible when the door is movably mounted in a door frame. 18. The vertical rod latching device of claim 14 , wherein the vertical rod includes a first portion and a second portion separated by a through channel which extends along a longitudinal axis of the vertical rod. 19. The vertical rod latching device of claim 18 , wherein the bracket includes a central portion positioned between a first bracket channel and a second bracket channel, and wherein the first bracket channel and the second bracket channel are configured to receive the first portion and the second portion of the vertical rod, respectively. 20. The vertical rod latching device of claim 19 , wherein the central portion is disposed in the through channel, and wherein the bracket through-hole is formed in the central portion.