Printer and substrate cooler for preserving the flatness of substrates printed in ink printers

What is claimed is: 1. An imaging system comprising: at least one marking material device configured to form images on substrates; a media transport system configured to move the substrates past the at least one marking material device to form with the at least one marking material device images on the substrates; a first dryer configured to dry the substrates after the at least one marking material device has formed images on the substrates; and a substrate cooler configured to receive the substrates after the substrates have been dried by the dryer, the substrate cooler comprising: a plurality of rollers; at least one actuator operatively connected to the plurality of rollers; a controller operatively connected to the least one actuator, the controller being configured to operate the at least one actuator to move the rollers relative to one another to vary a length of a path along which the substrates move through the substrate cooler and to regulate a speed at which the rollers rotate with reference to a temperature to which the substrates were exposed in the dryer; a cooling system having: a fluid source; a pump operatively connected to the fluid source and to the rollers; a heat exchanger operatively connected to the rollers and to the fluid source; and the controller is also operatively connected to the pump, the controller being further configured to operate the pump to circulate fluid through the rollers, the heat exchanger, and the fluid source to absorb heat from the rollers. 2. The imaging system of claim 1 further comprising: a first endless belt wrapped around a first predetermined number of rollers; a first member having a first end and a second end, the first end of the first member being mounted about a shaft about which one roller of the first predetermined number of rollers rotates to pivot the first member about the shaft and the second end of the first member having a roller rotatably mounted to the second end of the first member, the roller rotatably mounted about the second end of the first member engaging an inner surface of the first endless belt; the at least one actuator operatively connected to the roller rotatably mounted to the second end of the first member and to the first predetermined number of rollers, the at least one actuator being further configured to move the roller rotatably mounted to the second end of the first member toward and away from the first predetermined number of rollers; a second endless belt wrapped around a second predetermined number of rollers; a second member having a first end and a second end, the first end of the second member being mounted about a shaft about which one roller of the second predetermined number of rollers rotates to pivot the second member about the shaft and the second end of the second member having a roller rotatably mounted to the second end of the second member, the roller rotatably mounted about the second end of the second member engaging an inner surface of the second endless belt; the at least one actuator operatively connected to the roller rotatably mounted to the second end of the second member and the second predetermined number of rollers, the at least one actuator being further configured to move the roller rotatably mounted to the second end of the second member toward and away from the second predetermined number of rollers; and the controller being further configured to operate the at least one actuator to move the roller rotatably mounted to the second end of the first member toward the first predetermined number of rollers and to move the first predetermined number of rollers toward the second predetermined number of rollers and to move the roller rotatably mounted to the second end of the second member toward the second predetermined number of rollers to interleave the first predetermined number of rollers with the second predetermined number of rollers so a portion of the first endless belt engaging the first predetermined number of rollers and a portion of the second endless belt engaging the second predetermined number of rollers form an undulating path between the first predetermined number of rollers and the second predetermined number of rollers through which the substrates move through the substrate cooler. 3. The imaging system of claim 2 wherein the first endless belt and the second endless belt are made of 0.1 mm thick polyester or Kapton. 4. The imaging system of claim 2 wherein the first endless belt and the second endless belt are made of 1 mm thick rubber. 5. The imaging system of claim 2 , the controller being further configured to: move the first predetermined number of rollers toward the second predetermined number of rollers to lengthen the undulating path between the first endless belt and the second endless belt and to move the first predetermined number of rollers away from the second predetermined number of rollers to shorten the undulating path between the first endless belt and the second endless belt. 6. A substrate cooler for an imaging system comprising: a plurality of rollers; at least one actuator operatively connected to the plurality of rollers; and a controller operatively connected to the least one actuator, the controller being configured to operate the at least one actuator to move the rollers relative to one another to vary a length of a path along which substrates move through the substrate cooler and to regulate a speed at which the rollers rotate with reference to a temperature to which the substrates were exposed in a dryer in the imaging system; and a cooling system having: a fluid source; a pump operatively connected to the fluid source and to the rollers; a heat exchanger operatively connected to the rollers and to the fluid source; and the controller is also operatively connected to the pump, the controller being further configured to operate the pump to circulate fluid through the rollers, the heat exchanger, and the fluid source to absorb heat from the rollers. 7. The substrate cooler of claim 6 further comprising: a first endless belt wrapped around a first predetermined number of rollers; a first member having a first end and a second end, the first end of the first member being mounted about a shaft about which one roller of the first predetermined number of rollers rotates to pivot the first member about the shaft and the second end of the first member having a roller rotatably mounted to the second end of the first member, the roller rotatably mounted about the second end of the first member engaging an inner surface of the first endless belt; the at least one actuator operatively connected to the roller rotatably mounted to the second end of the first member and to the first predetermined number of rollers, the at least one actuator being further configured to move the roller rotatably mounted to the second end of the first member toward and away from the first predetermined number of rollers; a second endless belt wrapped around a second predetermined number of rollers; a second member having a first end and a second end, the first end of the second member being mounted about a shaft about which one roller of the second predetermined number of rollers rotates to pivot the second member about the shaft and the second end of the second member having a roller rotatably mounted to the second end of the second member, the roller rotatably mounted about the second end of the second member engaging an inner surface of the second endless belt; the at least one actuator operatively connected to the roller rotatably mounted to the second end of the second member and the second predetermined number of rollers, the at least one actuator being further configured to move the roller rotatably mounted t