Profiled rails for in multi-directional binder jetting

What is claimed: 1 . An additive manufacturing system comprising: a print box defining a volume having a lateral dimension: a print carriage bidirectionally movable along the lateral dimension, above the volume, the print carriage defining at least one ejection orifice directed toward the volume as the print carriage moves above the volume; and a roller bidirectionally movable along the lateral dimension, above the volume; wherein in a first configuration, the roller is positioned to precede the at least one ejection orifice of the print carriage in a first direction of printing in the lateral dimension; wherein in a second configuration, the roller is positioned to precede the at least one ejection orifice of the print carriage in a second direction of printing, wherein the first direction of printing and the second direction of printing are opposite one another with respect to the lateral dimension; and wherein the print carriage is configured to jet a binder from the at least one ejection orifice while moving in both the first direction of printing and the second direction of printing. 2 . The system of claim 1 , wherein spacing between the roller and the print carriage is adjustable relative to a plane defined by a top of the volume, in coordination with the bidirectional movement of the print carriage and the roller, to swap an orientation of the print carriage and the roller relative to the lateral dimension of the volume. 3 . The system of claim 2 , wherein the spacing between the roller and the print carriage is adjustable to position the roller and the print carriage on opposite sides of the plane. 4 . The system of claim 3 , wherein the spacing between the roller and the print carriage is adjustable to position the roller below the plane as the print carriage, above the plane, is movable past the roller in a direction parallel to the lateral dimension of the volume to swap the orientation of the print carriage and the roller 5 . The system of claim 3 , wherein the spacing between the roller and the print carriage is adjustable to return the roller from a position below the plane to a position above the plane. 6 . The system of claim 1 , further comprising a wash station at the one or more positions lateral to the lateral dimension of the volume. 7 . The system of claim 6 , further comprising a camera and a substrate, wherein the camera and the substrate are at the one or more positions lateral to the lateral dimension of the volume, the print carriage is positionable relative to the substrate jet the binder from the at the at least one ejection orifice to the substrate, and the camera is directed at the substrate to record a spray pattern of the jet from the at least one ejection orifice. 8 . An additive manufacturing system comprising: a print box defining a volume having a lateral dimension; a print carriage movable above the volume, the print carriage defining at least one orifice directed toward the volume as the print carriage moves above the volume; a roller movable above the volume to spread a powder across the volume: wherein in a first configuration, the roller is positioned to precede the at least one orifice of the print carriage in a first direction of printing in the lateral dimension; wherein in a second configuration, the roller is positioned to precede the at least one orifice of the print carriage in a second direction of printing, wherein the first direction of printing and the second direction of printing are opposite one another with respect to the lateral dimension; and wherein the print carriage is configured to jet a binder from the at least one orifice while moving in both the first direction of printing and the second direction of printing; and a z-stage actuator coupled to one of the print carriage or the roller, the z-stage actuator actuatable, in coordination with bidirectional movement of the print carriage and the roller parallel to the lateral dimension, to swap an orientation of the print carriage and the roller relative to the lateral dimension of the volume such that the roller precedes the orifice of the print carriage in the first direction of printing and the second direction of printing. 9 . The system of claim 8 , wherein the z-stage actuator is adjustable to vary a height of the roller associated with movement of the roller above the volume to spread the powder across the volume. 10 . The system of claim 8 , wherein the z-stage actuator is actuatable to adjust relative spacing between the print carriage and the roller in a direction perpendicular to a plane defined by a top of the volume. 11 . The system of claim 10 , wherein the print box further defines a first recess and a second recess, the first recess and the second recess are on opposite sides of the volume along the lateral dimension, each of the first recess and the second recess extends below the plane defined by the top of the volume, and the z-stage actuator is actuatable to move at least a portion of the roller below the plane into and out of the first recess and the second recess 12 . The system of claim 11 , wherein, with the at least a portion of the roller retracted into the first recess or into the second recess below the plane, the print carriage is above the plane. 13 . The system of claim 10 , further comprising a first rail and a second rail different from the first rail, the first rail and the second rail each outside of the volume, the first rail and the second rail each parallel to the lateral dimension, the print carriage movable above the volume along the first rail, and the roller movable above the volume along the second rail. 14 . The system of claim 13 , wherein the first rail and the second rail are spaced relative to one another in a direction perpendicular to the lateral dimension of the volume, the z-stage actuator is coupled to one of the first rail or the second rail, and the z-stage actuator is actuatable to adjust spacing between the first rail and the second rail. 15 . The system of claim 14 , wherein the other one of the first rail or the second rail is fixed relative to the volume. 16 . The system of claim 13 , wherein at least a portion of the first rail is above a plane defined by the top of the volume, and at least a portion of the second rail is below the plane defined by the top of the volume. 17 . The system of claim 13 , further comprising a brush including filaments having free ends, wherein the brush is coupled to the roller to move with the roller along the second rail, and the free ends of at least some of the filaments are in contact with the second rail as the roller moves along the second rail. 18 . The system of claim 13 , further comprising a gas source, the gas source positioned to direct a flow of a gas over the second rail. 19 . An additive manufacturing system comprising: a print box defining a volume having a lateral dimension; a print carriage movable above the volume, the print carriage defining at least one orifice directed toward the volume as the print carriage moves above the volume; a roller transverse to the lateral dimension; and a swing arm including an elongate member having a first end region and a second end region, a first joint disposed along the first end region and a second joint disposed along the second end region, the elongate member pivotably coupled to the print carriage along a first joint and pivotably coupled to the roller along a second joint, and the swing arm actuatable to pivot the elongate member about the