Rerounder system

What is claimed is: 1. A pipe deployment system, comprising: a pipe deployment vehicle, wherein the pipe deployment vehicle comprises a vehicle frame; a coil of pipe configured to be loaded on the vehicle frame of the pipe deployment vehicle; and a rerounder system coupled to the vehicle frame of the pipe deployment vehicle, wherein the rerounder system is configured to transition between a closed position and an open position that enables the pipe to be raised into the rerounder system and comprises: a set of vertical rollers configured to compress an outer surface of the pipe as the pipe is uncoiled from the coil of pipe to facilitate changing a cross-sectional shape of the pipe while the rerounder system is in the closed position; a horizontal roller positioned upstream of the set of vertical rollers, wherein the rerounder system is configured to cause the pipe to pass under the horizontal roller to facilitate guiding the pipe into a gap between the set of vertical rollers; and a set of slanted rollers positioned between the set of vertical rollers and the horizontal roller, wherein each roller in the set of slanted rollers is slanted relative to the set of vertical rollers and the horizontal roller and the set of slanted rollers is configured to block the pipe from falling out of the gap between the set of vertical rollers while the rerounder system is in the closed position. 2. The pipe deployment system of claim 1 , wherein the rerounder system comprises: a bar, wherein a first end of the bar is configured to be coupled to the vehicle frame of the pipe deployment vehicle via a fastener system and a second end of the bar is pivotably connected to the vehicle frame to enable the rerounder system to rotate relative to the vehicle frame to facilitate loading the coil of pipe onto the pipe deployment vehicle; and a housing slidably connected to the bar, wherein the housing is configured to slide along the bar in response to uncoiling of the pipe from the coil of pipe. 3. The pipe deployment system of claim 1 , wherein the rerounder system comprises: a first clamp arm assembly, wherein the first clamp arm assembly comprises a first roller of the set of vertical rollers, a second roller of the set of slanted rollers, and a third roller of the set of slanted rollers; and a second clamp arm assembly, wherein the second clamp arm assembly comprises a fourth roller of the set of vertical rollers, a fifth roller of the set of slanted rollers, and a sixth roller of the set of slanted rollers and the first clamp arm assembly is configured to move relative to the second clamp arm assembly to facilitate adjusting size of the gap between the set of vertical rollers. 4. The pipe deployment system of claim 1 , wherein the set of vertical rollers and the set of slanted rollers are offset from each other along an axis of the gap between the set of vertical rollers. 5. The pipe deployment system of claim 1 , wherein the set of slanted rollers comprises: a first roller; a second roller; a third roller; and a fourth roller. 6. The pipe deployment system of claim 5 , wherein each roller in the set of slanted rollers is co-planar with each other roller in the set of slanted rollers. 7. The pipe deployment system of claim 1 , wherein the rerounder system comprises: a housing; a roller arm pivotably connected to the housing, wherein the horizontal roller is coupled to the roller arm via a shaft; and an actuator connected between the housing and the roller arm. 8. The pipe deployment system of claim 7 , wherein the actuator is configured to: extend to lower the horizontal roller; and retract to raise the horizontal roller. 9. The pipe deployment system of claim 7 , wherein the horizontal roller is configured to block the pipe from contacting the housing of the rerounder system.