Diesel engine fluid coolant system having a solenoid-powered gate valve

What is claimed is: 1. A diesel engine fluid reservoir system comprising: a reservoir of diesel exhaust fluid in thermal communication with a heating element; a conduit loop for the flow of engine coolant fluid to the heating element and back to a diesel engine having a sprung gate valve with a no-flow position and a flow position for control of the engine coolant fluid flow therethrough; a temperature sensor disposed to sense ambient temperature and/or a temperature of the diesel exhaust fluid; a controller communicatively coupled to the temperature sensor and communicatively coupled to the sprung gate valve; wherein when the temperature sensor senses a temperature below the freezing point temperature of the diesel exhaust fluid, the controller sends a signal to the sprung gate valve to be in the flow position; wherein the sprung gate valve comprises: an endless elastic band sandwiched between a first gate member and a second gate member that each define an opening therethrough alignable with the conduit loop in the flow position thereby allowing engine coolant fluid to flow to the heating element to transfer heat to the diesel exhaust fluid; and a solenoid actuator that moves the first and second gate members together linearly within a pocket within the conduit loop. 2. The diesel engine fluid reservoir system of claim 1 , wherein when the temperature sensor senses a temperature indicating that the diesel exhaust fluid has reached a specified temperature, the controller sends a signal to the sprung gate valve to be in the no-flow position. 3. The diesel engine fluid reservoir system of claim 1 , wherein the first gate member includes a first fastener at a trailing end thereof and a second fastener at a leading end thereof, and the second gate member includes a first fastener receiving member positioned for alignment with the first fastener and a second fastener receiving member positioned for alignment with the second fastener. 4. The diesel engine fluid reservoir system of claim 1 , wherein the endless elastic band spaces the first gate member a distance apart from the second gate member. 5. The diesel engine fluid reservoir system of claim 1 , wherein the endless elastic band is generally oval-shaped or is generally figure 8-shaped. 6. The diesel engine fluid reservoir system of claim 1 , wherein the first and second gate members each include a track in which the endless elastic band is seated. 7. The diesel engine fluid reservoir system of claim 1 , wherein the first gate member defines a second opening therethrough in a closed position portion thereof, and the second gate member, in a closed position portion thereof, includes a plug projecting from its inner surface toward the second opening in the first gate member. 8. The diesel engine fluid reservoir system of claim 1 , wherein the sprung gate valve has a power off configuration for the no-flow position. 9. The diesel engine fluid reservoir system of claim 1 , wherein the selenoid has peak and hold control to operate the sprung gate valve. 10. The diesel engine fluid reservoir system of claim 1 , wherein the first gate member includes a fastener connected to a fastener receiving member of the second gate member thereby securing the first and second gate members together. 11. The diesel engine fluid reservoir system of claim 10 , wherein the fastener is a latch and the fastener receiving member is a detent in the second gate member. 12. The diesel engine fluid reservoir system of claim 1 , wherein the first and second gate members each include a connecting member protruding from a trailing end thereof that together collectively define a multi-part socket, wherein the multi-part socket allows the sprung gate to rotate 360 degrees or more about its central longitudinal axis. 13. The diesel engine fluid reservoir system of claim 12 , wherein the multi-part socket includes a generally annular opening most distal the trailing end and a larger chamber more proximate the trailing end relative to the generally annular opening. 14. The diesel engine fluid reservoir system of claim 1 , wherein, in the direction of engine coolant flow within the conduit loop, the portion of the conduit loop most proximate the first gate member gradually narrows along the longitudinal axis thereof toward the first gate member. 15. The diesel engine fluid reservoir system of claim 14 , wherein the portion of the conduit loop most proximate the second gate member gradually narrows along the longitudinal axis thereof toward the second gate member. 16. The diesel engine fluid reservoir system of claim 15 , wherein the portion of the conduit loop most proximate the first gate member and the portion of the conduit loop most proximate the second gate member are defined by the housing of the sprung gate valve.