Heat removal system and method for an injection molding machine

What is claimed is: 1. A method for determining heat removal of a molding machine having a mold, comprising: sensing an inflow temperature for a coolant provided to the mold; sensing an outflow temperature for the coolant exiting the mold; sensing a coolant flow rate of the coolant through the mold; sensing a heat transfer into the mold via determining a mass of molten plastic that is provided at a determined temperature; calculating a heat transfer rate for the mold with an electronic processor based at least on the inflow temperature, the outflow temperature, the coolant flow rate, and the determined mass and the determined temperature of the molten plastic; determining a time lag between when heat enters the mold and when heat is removed by the coolant with the electronic processor; pre-emptively adjusting coolant flow rate to provide uniform heat transfer throughout a molding cycle in view of the heat transfer rate and the time lag; and stopping operation of the molding machine when a temperature gradient between the inflow temperature and the outflow temperature is outside a predetermined range of values. 2. The method according to claim 1 , wherein an input device is provided for inputting a density of the molten plastic. 3. The method according to claim 2 , wherein the determined mass of molten plastic is determined based on shot size and on the density of the molten plastic, and wherein the molding machine identifies the mold placed therein and provides the density and heat capacity of the molten plastic for use with the identified mold. 4. The method according to claim 1 , wherein an input device is provided for a user to manually enter coolant properties. 5. The method according to claim 4 , wherein the coolant is water. 6. The method according to claim 1 , including the steps of: storing the heat transfer rate in a memory; determining total energy removed by the coolant with the electronic processor; and displaying the total energy removed by the coolant. 7. The method according to claim 6 , wherein the display of the heat transfer rate and the total energy removed over time is updated at each iteration. 8. A method for determining heat removal of a molding machine having a mold with conformal cooling, comprising: sensing an inflow temperature for a coolant provided to the mold; sensing an outflow temperature for a coolant exiting the mold; sensing a coolant flow rate of the coolant through the mold; calculating a heat transfer rate for the mold with an electronic processor based at least on the inflow temperature, the outflow temperature, and the coolant flow rate; displaying the heat transfer rate for the mold; storing the heat transfer rate in a memory; determining total energy removed by the coolant with the electronic processor; displaying the total energy removed by the coolant; and stopping operation of the molding machine when a temperature gradient between the inflow temperature and the outflow temperature is outside a predetermined range of values. 9. The method according to claim 8 , wherein the display of the heat transfer rate and the total energy removed over time is updated at each iteration. 10. The method according to claim 8 , wherein an input device is provided for inputting a density of a molten plastic. 11. The method according to claim 8 , wherein a determined mass of molten plastic is determined based on a shot size and on a density of the molten plastic, and wherein the molding machine identifies the mold placed therein and provides the density and a heat capacity of the molten plastic for use with the identified mold. 12. A method for determining heat removal of a molding machine having a mold with conformal cooling, comprising: sensing an inflow temperature for a coolant provided to the mold; sensing an outflow temperature for a coolant exiting the mold; sensing a coolant flow rate of the coolant through the mold; calculating a heat transfer rate for the mold with an electronic processor based at least on the inflow temperature, the outflow temperature, and the coolant flow rate; displaying the heat transfer rate for the mold; and providing an alert that maintenance of the molding machine or the mold is required when a temperature gradient between the inflow temperature and the outflow temperature decreases below a predetermined threshold. 13. The method according to claim 12 , wherein the alert includes a message that the maintenance of the molding machine or the mold is required. 14. The method according to claim 13 , including stopping operation of the molding machine when the temperature gradient is outside a predetermined range of values. 15. The method according to claim 12 , wherein the heat transfer rate=Specific heat*coolant flow rate*change in temperature of the coolant from an inlet to an outlet of the molding machine. 16. The method according to claim 12 , wherein an input device is provided for inputting a density of a molten plastic, and pre-emptively adjusting coolant flow rate to provide uniform heat transfer throughout a molding cycle in view of the heat transfer rate and a time lag. 17. The method according to claim 12 , wherein a determined mass of molten plastic is determined based on shot size and on a density of the molten plastic, and wherein the molding machine identifies the mold placed therein and provides the density and a heat capacity of the molten plastic for use with the identified mold.