An automatic pet wet canned food dispenser robot has a robotic arm comprised of mechanical elements and motors, and a programmed microprocessor. The programmed microprocessor guides the robotic arm to grasp a food can and utilize levers and/or motors to open the pop top can, then the microprocessor guides the robotic arm to invert the opened food can over an empty bowl and shake out the food contents into a bowl for a pet at predetermined times setup by the pet owner whose presence is not required at time of feeding. All prior pet wet food dispensers required a pet owner to open a hermetically sealed can many hours or days in advance of when the food is actually served to their pets, thus creating health hazards for pets and pet owners' environment. There are two exceptions to noted prior arts which open and serve wet canned food on demand without requiring human presence. The first invention has a number of serious limitations such as its capacity to handle only one can and its inability to serve food safely in a bowl for a pet. Second invention is present inventor's own pending, patent 13/792,543, which overcomes these limitations, however, requires use of an electric can opener comprising of a blade to cut through wet food can. The current invention utilizes advanced automation and programming to overcome prior limitations to deliver freshly opened canned food to pets without human presence required at the time of operation and does not require use of a can opener for opening the pop top cans.