Truck mounted brake system for rod-under style bolsters

The invention claimed is: 1. A railcar brake system, comprising: a first brake beam and a second brake beam configured to be mounted on opposite sides of a bolster of a railcar truck, each of the first brake beam and the second brake beam being configured to have brake heads disposed on opposing ends thereof; a brake cylinder connected to the first brake beam; a first lever and a second lever pivotally connected to the first brake beam at separate points on the first brake beam, the first lever and the second lever also being connected to opposing ends of the brake cylinder to connect the brake cylinder to the first brake beam; a slack adjuster connected to the second brake beam, the slack adjuster being connected to the second brake beam remotely from the first brake beam and the brake cylinder; a third lever and a fourth lever pivotally connected to the second brake beam at separate points on the second brake beam, the third lever and the fourth lever also being connected to opposing ends of the slack adjuster to connect the slack adjuster to the second brake beam; a first push rod operatively connecting the first lever to the second brake beam and the slack adjuster, the first push rod also operatively connecting the third lever to the first lever; and a second push rod operatively connecting the second lever to the second brake beam and the slack adjuster, the second push rod also operatively connecting the fourth lever to the second lever, wherein the first lever is pivotally connected to the first brake beam, an end of the brake cylinder, and an end of the first push rod, and wherein an opposing end of the first push rod is operatively connected to the second brake beam and the slack adjuster, and wherein the second lever is pivotally connected to the first brake beam, an opposing end of the brake cylinder, and an end of the second push rod, and wherein an opposing end of the second push rod is operatively connected to the second brake beam and the slack adjuster, wherein the first push rod and the second push rod are configured to extend under the bolster of the railcar truck, and wherein actuation of the brake cylinder causes movement of the brake beams via the first, second, third, and fourth levers and the first and second push rods. 2. The railcar brake system according claim 1 , wherein the second brake and the slack adjuster are operatively connected to the first push rod and the second push rod by the third lever and the fourth lever, respectively. 3. The railcar brake system according to claim 1 , wherein the first brake beam includes at least two stops disposed thereon adjacent to each of the first lever and the second lever, and wherein the at least two stops are configured to engage the first lever and the second lever to limit movement of the first lever and the second lever and to align the brake cylinder and the first and second levers with respect to the truck. 4. The railcar brake system according to claim 1 , further comprising brake heads disposed on each end of the first brake beam and the second brake beam, each of the brake heads defining a brake face having a center, wherein the first lever and the second lever define a common mid-plane extending through the levers, and wherein the mid-plane of the levers is substantially coincident with the center of each of the brake faces of the brake heads. 5. The railcar brake system according to claim 1 , wherein the slack adjuster has an adjustable length, and wherein the slack adjuster comprises a trigger arm configured to be actuated to trigger the slack adjuster to undergo a length adjustment. 6. The railcar brake system according to claim 5 , further comprising a remote trigger mechanism connected to the trigger arm, wherein the remote trigger mechanism is configured to actuate the trigger arm when the brake cylinder is actuated. 7. The railcar brake system according to claim 6 , wherein the remote trigger mechanism comprises a cable assembly operatively connecting the brake cylinder to the slack adjuster, the cable assembly comprising: an outer conduit having a first end connected to the brake cylinder and a second end connected to the slack adjuster; and an inner cable at least partially disposed in the outer conduit, the inner cable having a first end connected to the brake cylinder and a second end connected to the trigger arm of the slack adjuster, wherein the inner cable is connected to the brake cylinder and the trigger arm of the slack adjuster such that the inner cable pulls the trigger arm of the slack adjuster and triggers the slack adjuster when the brake cylinder is actuated. 8. The railcar brake system according to claim 7 , wherein the trigger arm is pivotally connected to a slack adjuster jaw of the slack adjuster, and wherein the system further comprises a spring over travel assembly connecting the second end of the inner cable of the cable assembly to the trigger arm of the slack adjuster, the spring over travel assembly comprising: a slack adjuster cable rod end defining the second end of the inner cable, the slack adjuster cable rod end extending through an aperture defined in the trigger arm; a spherical washer disposed on the slack adjuster cable rod end in a position facing the aperture of the trigger arm; a washer and a fastener disposed at an end of the slack adjuster cable rod end; and a spring disposed on the slack adjuster cable rod end, the spring being held on the slack adjuster cable rod end between the spherical washer and the washer and fastener, wherein the spring over travel assembly is configured to prevent damage to the trigger arm caused by the trigger arm contacting the slack adjuster jaw. 9. The railcar brake system according to claim 7 , wherein the brake cylinder comprises a cylinder body and a cylinder piston, wherein the first end of the outer conduit of the cable assembly is connected to the cylinder body and the first end of the inner cable of the cable assembly is connected to the cylinder piston, wherein the brake cylinder is actuated such that the cylinder piston extends from the cylinder body, and wherein the cylinder piston causes the inner cable to pull the trigger arm of the slack adjuster to trigger the slack adjuster when the cylinder piston extends from the brake cylinder by a travel distance. 10. The railcar brake system according to claim 9 , wherein the first end of the inner cable of the cable assembly is defined by a cylinder cable rod end, wherein the cylinder cable rod end is inserted through a piston travel arm extending from a cylinder piston jaw of the cylinder piston to slidably connect the first end of the inner cable to the cylinder piston, wherein at least one adjustment element is disposed on the cylinder cable rod end, and wherein the at least one adjustment element is configured to be moved along the cylinder cable rod end to set the travel distance of the cylinder piston. 11. A slack adjustment mechanism for a railcar brake system, comprising: a brake cylinder, the brake cylinder comprising a cylinder body and a cylinder piston; a slack adjuster positioned remotely from the brake cylinder in the brake assembly, the slack adjuster having an adjustable length and comprising a trigger arm configured to be actuated to trigger the slack adjuster to undergo a length adjustment; and a remote trigger mechanism connected to the trigger arm, wherein the remote trigger mechanism is configured to actuate the trigger arm when the brake cylinder is actuated, wherein the remote trigger mechanism comprises a cable assembly operatively connecting the brake cylinder to the slack adjuster, the cable assembly comprising a cable me