A thermodynamic pet cooling station that uses conductive properties to transfer cold temperatures from a cooling element contained within an insulated base to the surface of a platform tile, creating an efficiently cooled area where an animal my rest when he/she is subjected to dangerously hot weather. The pet cooling station is thermodynamically cooled using three integral components: a molded insulated base, structural platform tiles made from a conductive metal comprised of a planar surface with temperature-transfer cases affixed to their underside, and cooling pods, that can be pre-frozen and are reusable, containing a non-toxic liquid that is housed in either a similar conductive metal or a durable membrane that will hold its shape and efficiently transfer the frozen temperature to the temperature-transfer cases allowing thermodynamics to follow the specific pathway of interconnected metal and move the cold temperature up and across the structural platform planar surface in an efficient manner. Once the frozen cooling pods are inserted into the temperature-transfer cases, and the structural tiles are lowered into the insulated base, the unit creates several hours of an efficiently cooled surface for the animal to enjoy without any human intervention.
