Belt splicing apparatus and method

What is claimed is: 1. A portable conveyor belt splicing apparatus for joining together ends of a conveyor belt, the portable conveyor belt splicing apparatus comprising: first and second press assemblies; elongated platens of the first and second press assemblies for being clamped on belt ends to longitudinally extend widthwise across conveyor belt ends; heaters of the first and second press assemblies operable to heat the platens; at least one bladder of the first press assembly being inflatable to increase the clamping force applied to the belt ends by the platen of the first press assembly, the at least one bladder having a pair of opposite ends and extending longitudinally therebetween; and at least one first fan assembly of the first press assembly intermediate and spaced from the ends of the bladder for directing air past the bladder transverse to the longitudinal extent thereof and toward the platen of the first press assembly for cooling the platen. 2. The portable conveyor belt splicing apparatus of claim 1 further comprising at least one second fan assembly of the second press assembly configured to direct air toward the platen of the second press assembly and cool the platen. 3. The portable conveyor belt splicing apparatus of claim 1 wherein the at least one bladder includes a pair of longitudinally extending bladders and the at least one first fan assembly is configured to direct air past the bladders transverse to the longitudinal extents thereof. 4. The portable conveyor belt splicing apparatus of claim 1 wherein the at least one bladder includes a pair of longitudinally extending bladders that are spaced from each other to have a lateral space therebetween, and the at least one fan assembly is arranged to direct air into the lateral space between the bladders. 5. The portable conveyor belt splicing apparatus of claim 1 wherein the at least one first fan assembly includes a plurality of first fan assemblies arranged to direct air past the bladder. 6. The portable conveyor belt splicing apparatus of claim 1 wherein the at least one bladder includes a pair of stacked bladders. 7. The portable conveyor belt splicing apparatus of claim 1 wherein the second press assembly includes at least one second fan assembly configured to direct air toward the platen of the second press assembly and cool the platen; and an elongate frame having at least one compartment for the at least one second fan assembly and at least opening in the frame with the at least one second fan assembly being configured to direct air through the at least one opening in the frame toward the platen of the second press assembly. 8. The portable conveyor belt splicing apparatus of claim 7 wherein the at least one opening of the frame of the second press assembly is above the at least one second fan assembly. 9. The portable conveyor belt splicing apparatus of claim 1 wherein the first press assembly includes a first insulating assembly comprising a plurality of resilient members supporting the platen of the first press assembly and the at least one first fan assembly is configured to direct air into the first insulating assembly. 10. The portable conveyor belt splicing apparatus of claim 9 wherein the second press assembly includes at least one second fan assembly configured to direct air toward the platen of the second press assembly and cool the platen; and the second press assembly includes a second insulating assembly comprising a plurality of resilient members supporting the platen of the second press assembly and the at least one second fan assembly is configured to direct air into the second insulating assembly. 11. The portable conveyor belt splicing apparatus of claim 10 wherein the first press assembly includes a support plate intermediate the heater of the first press assembly and the resilient members of the first insulating assembly; and a support plate of the second press assembly intermediate the heater of the second press assembly and the resilient members of the second insulating assembly. 12. The portable conveyor belt splicing apparatus of claim 9 wherein the first insulating assembly includes walls separating the resilient members. 13. A portable conveyor belt splicing apparatus for joining conveyor belt ends together, the portable conveyor belt splicing apparatus comprising: upper and lower press assemblies; upper and lower platen assemblies of the upper and lower press assemblies; a heater of one of the upper and lower platen assemblies of one of the upper and lower press assemblies; and an insulating assembly of the one press assembly including a plurality of resilient members of metallic material supporting the one platen assembly. 14. The portable conveyor belt splicing apparatus of claim 13 wherein the one platen assembly is elongated along a longitudinal axis thereof and the plurality of resilient members each contact the one platen assembly at a plurality of longitudinally spaced locations along the one platen assembly. 15. The portable conveyor belt splicing apparatus of claim 13 wherein the plurality of resilient members each include a plurality of curved portions that are spaced from each other and form spaced contacts with the one platen assembly. 16. The portable conveyor belt splicing apparatus of claim 13 wherein the one platen assembly includes a platen and a support plate on opposite sides of the heater and the resilient members contact the support plate. 17. The portable conveyor belt splicing apparatus of claim 13 wherein the resilient members include coil springs. 18. The portable conveyor belt splicing apparatus of claim 17 wherein the upper and lower platen assemblies are elongated and have main heat applying surfaces with a length and the coil springs extend for substantially the entire length of the main heat applying surfaces. 19. The portable conveyor belt splicing apparatus of claim 13 further comprising an electrical cord configured to be connected to a 110 volt standard power supply and an on-board control system coupled to the heater and configured to operate the heater with power received from the 110 volt standard power supply. 20. The portable conveyor belt splicing apparatus of claim 13 wherein the insulating assembly includes a support portion having a plurality of walls separating the resilient members. 21. The portable conveyor belt splicing apparatus of claim 20 wherein the resilient members have predetermined heights and the walls of the support portion have heights less than the heights of the resilient members such that the walls of the support portion do not contact the one platen assembly. 22. The portable conveyor belt splicing apparatus of claim 20 wherein the support portion includes one or more openings; and at least one fan assembly is configured to direct airflow through the one or more openings and into the insulating assembly. 23. The portable conveyor belt splicing apparatus of claim 20 wherein the upper and lower press assemblies include frames made of extruded material; and the support portion and the walls thereof are integrally formed with the frame of the one press assembly. 24. A conveyor belt splicing apparatus for joining ends of a conveyor belt, the conveyor belt splicing apparatus comprising: a housing including upper and lower housing portions having unclamped and clamped positions relative to ends of a conveyor belt; upper and lower platens of the