System and method for preparing three-dimensional (3D) objects for surface printing

What is claimed is: 1. A printing system comprising: a plurality of printheads, each printhead in the plurality of printheads being configured to eject marking material; a support member positioned to be parallel to a plane formed by the plurality of printheads; a member movably mounted to the support member; a first actuator operatively connected to the movably mounted member to enable the actuator to move the moveably mounted member along the support member; an object holder configured to mount to the movably mounted member to enable the object holder to pass the plurality of printheads as the moveably mounted member moves along the support member; a surface treatment module configured to treat a surface of an object held by the object holder prior to the object holder passing the plurality of printheads, the surface treatment module comprising: an applicator configured for reciprocating movement; a second actuator operatively connected to the applicator, the actuator being configured to move the applicator in reciprocating movement; a cleaning membrane positioned opposite the applicator; and a controller operatively connected to the plurality of printheads, the first actuator, and the second actuator, the controller being configured to operate the actuator to move the object holder through the surface treatment module, to operate the second actuator to press the cleaning membrane against a surface of the object held by the object holder and to retract the applicator from the surface of the object, to operate the actuator to pass the surface treated object past the plurality of printheads after the surface of the object has been treated with the cleaning membrane, and to operate the plurality of printheads to eject marking material onto the object held by the object holder as the object holder passes the plurality of printheads. 2. The printing system of claim 1 further comprising: an enclosure; a frame configured to fit within the enclosure; and the plurality of printheads, the support member, and the surface treatment module being arranged vertically within the frame to position the surface treatment module at a position that has a gravitational potential within the enclosure that is lower than a gravitational potential at the plurality of printheads. 3. The printing system of claim 1 further comprising: a first conveyor configured to move objects to the object holder prior to the object holder passing the plurality of printheads; and the surface treatment module is positioned along the first conveyor to enable the second actuator to press the cleaning membrane against the surfaces of the objects to treat the surfaces of each object prior to the objects being moved to the object holder. 4. The printing system of claim 1 , the surface treatment module further comprising: a supply roll of the cleaning membrane; a take-up roll configured to engage one end of the cleaning membrane, the supply roll and the take-up roll being positioned on opposite sides of the applicator; a third actuator operatively connected to the take-up roll, the second actuator being configured to rotate the take-up roll to pull cleaning membrane from the supply roll past the applicator; and the controller being further configured to operate the third actuator to rotate the take-up roll and rotate the take-up roll to pull cleaning membrane from the supply roll past the applicator. 5. The printing system of claim 4 , the controller is further configured to: operate the third actuator to pull a length of cleaning membrane from the supply roll that enables a portion of the cleaning membrane that was pressed into the object to move past the applicator and be replaced by another portion of the cleaning membrane that has not touched the object in the holder. 6. The printing system of claim 5 wherein the cleaning membrane is a lint-free, non-woven fabric pre-wetted with a cleaning agent. 7. The printing system of claim 6 wherein the cleaning agent is a solution of water and isopropyl alcohol. 8. The printing system of claim 1 , the applicator of the surface treatment module further comprising: a support member; a compression member mounted to the support member; and the second actuator is operatively connected to the support member to move the support member in the reciprocating movement to press the compression member into the cleaning membrane and the cleaning membrane against the surface of the object and to retract the compression member and the cleaning membrane from the surface of the object. 9. The printing system of claim 8 wherein the compression member is made of a flexible material having a durometer that enables the compression member to deform about a portion of the object.