Smart molten metal pump

What is claimed is: 1. A molten metal pump system comprising: (a) a molten metal pump having a plurality of pump structures that include: a rotor shaft, a motor shaft, a motor, a superstructure, a rotor, one or more support posts, and a pump base; (b) a controller for controlling the speed of the pump or turning off the pump or sending a message to an operator or monitor; (c) a vibration sensor on or in one or more of the plurality of pump structures, wherein the vibration sensor is configured to detect vibration and communicate the vibration to the controller; and (d) a second vibration sensor on or in one of the plurality of pump structures different from the pump structure that includes the vibration sensor, wherein the second vibration sensor is configured to detect vibration and communicate the vibration to the controller; wherein the controller varies the speed of the pump, turns off the pump, and/or sends a message to a monitor or operator, based on the vibration detected by the vibration sensor and/or the vibration detected by the second vibration sensor. 2. The molten metal pump system of claim 1 , wherein the controller is programmed with (a) a maximum vibration level for the vibration sensor and the controller is configured to turn off the molten metal pump if the maximum vibration level is exceeded, and (b) a second maximum vibration level for the second vibration sensor and the controller is configured to turn off the molten metal pump if the second maximum vibration level is exceeded. 3. The molten metal pump system of claim 1 that further includes a thermocouple positioned in one or more of: the pump base, one or more of the one or more support posts, the rotor, or the rotor shaft, wherein the thermocouple is configured to measure the temperature of molten metal in which the pump is positioned and communicate the temperature to the controller. 4. The molten metal pump system of claim 1 , wherein the controller is remote to the pump. 5. The molten metal pump system of claim 1 , wherein the controller is on the superstructure of the pump. 6. The molten metal pump system of claim 3 , wherein the thermocouple is in an enclosed box that is configured to be positioned beneath the molten metal when the molten metal pump is positioned in a molten metal bath, so the thermocouple does not contact the molten metal. 7. The molten metal pump system of claim 1 that further includes a laser on the superstructure, wherein there is an insulating material between the superstructure and the laser. 8. The molten metal pump system of claim 1 , wherein a second thermocouple is positioned in the vessel, is remote from the pump, and is configured to communicate with the controller. 9. The molten metal pump system of claim 8 , wherein the communication from the thermocouple to the controller is wireless. 10. The molten metal pump system of claim 7 , wherein the communication from the laser to the controller is wireless. 11. The molten metal pump system of claim 1 , wherein the communication from the vibration sensor to the controller is wireless. 12. The molten metal pump system of claim 1 , wherein the communication from the second vibration sensor to the controller is wireless. 13. The molten metal pump system of claim 1 that further comprises a display that shows a measured temperature of the molten metal, a measured depth of the molten metal, and speed of the molten metal pump. 14. The molten metal pump system of claim 1 , wherein the controller comprises a memory that stores an operational history of the molten metal pump. 15. The molten metal pump system of claim 1 , wherein the controller can be accessed from a remote location. 16. The molten metal pump system of claim 15 , wherein the controller can be reprogrammed from the remote location. 17. The molten metal pump system of claim 1 , wherein the vibration sensor is an accelerometer, and the second vibration sensor is an accelerometer. 18. The molten metal pump system of claim 1 , wherein there is an insulating material between the superstructure and a molten metal bath when the molten metal pump is in a molten metal bath. 19. The molten metal pump system of claim 13 , wherein the controller varies the speed of the pump, turns off the pump, and/or sends a message to a monitor or operator, based on (a) the temperature of the molten metal, (b) the depth of the molten metal, and/or (c) the vibration of the pump. 20. The molten metal pump system of claim 1 , wherein the controller is further configured to receive one or more of the pump speed and pump load and wherein the controller varies the speed of the pump, turns off the pump, and/or sends a message to a monitor or operator, based on (a) the temperature of the molten metal, (b) the depth of the molten metal measured, (c) the speed of the pump, and/or (d) the pump load. 21. The molten metal pump system of claim 7 that further comprises a depth measuring device mounted and configured so as to measure the depth of molten metal in a second vessel, wherein the second depth device is in communication with the controller. 22. The molten metal pump system of claim 1 that further comprises a scale that measures the weight of molten metal in a structure and communicates the weight to the controller. 23. The molten metal pump system of claim 1 , wherein the first vibration sensor is on or in the rotor shaft and the second vibration sensor is in the rotor.