Hot stamping system and method

What is claimed is: 1. A system for hot forming a plurality of parts, comprising: a furnace including a plurality of shelves stacked vertically relative to one another, each of said shelves including a plurality of first driven rollers for conveying a plurality of blanks through said furnace; said furnace including a plurality of heaters for heating said blanks, each of said heaters being disposed adjacent one of said shelves, and each of said heaters and said adjacent shelf being removable from said furnace; a hot forming apparatus for shaping said heated blanks; and a blank feeder for conveying said heated blanks from said shelves of said furnace to said hot forming apparatus. 2. The system of claim 1 , wherein said furnace includes a plurality of chambers stacked vertically relative to one another and each containing one said shelves and one of said heaters. 3. The system of claim 2 , wherein each of said chambers is individually removable from said furnace. 4. The system of claim 2 , wherein each of said chambers includes a first door at a first side of said chamber and a second door at a second side of said chamber opposite said first side, and said chambers are sealed from one another and from the surrounding environment. 5. The system of claim 1 , wherein said hot forming apparatus includes a plurality of cavities for shaping at least one of said blanks into a plurality of shaped parts. 6. The system of claim 1 , wherein said blank feeder includes a plurality of driven rollers for conveying said heated blanks from said shelves of said furnace to said hot forming apparatus. 7. The system of claim 1 , wherein said blank feeder is movable vertically relative to said stack of shelves for conveying said heated blanks from each of said shelves to said hot forming apparatus. 8. The system of claim 1 , wherein said blank feeder is insulated from the surrounding environment and extends continuously from said furnace to said hot forming apparatus. 9. The system of claim 1 , further comprising a blank loader including a plurality of driven rollers and being movable vertically along said shelves for feeding said blanks to each of said shelves. 10. The system of claim 1 , wherein said blanks are formed of steel material, each of said shelves extends horizontally from a first side to a second side opposite said first side and presents an area for supporting a plurality of said blanks; said furnace includes a plurality of chambers stacked vertically relative to one another, each of said chambers containing one of said shelves and one of said heaters; each of said chambers includes a first door at said first side and a second door at said second side and is sealed from the other chambers and from the outside environment; each of said chambers are individually fixable to other chambers and individually removable from said stack of chambers; said hot forming apparatus includes an upper die and a lower die facing one another and presenting a plurality of cavities therebetween for simultaneously shaping at least one of said heated blanks into a plurality of individual parts; said hot forming apparatus includes a plurality of cooling ports extending along said cavities for conveying a cooling fluid therethrough; said blank feeder extending continuously from said furnace to said hot forming apparatus and being movable vertically relative to said stack of chambers of said furnace for conveying said heated blanks from each of said chambers to said hot forming apparatus; said blank feeder being insulated from the surrounding environment and including a heater; and further comprising: a blank loader including a plurality of driven rollers and being movable vertically along said chambers for feeding said blanks to each of said chambers; a robot for disposing said blanks on said blank loader; a conveyor disposed adjacent said hot forming apparatus opposite said blank feeder for conveying said shaped individual parts away from said hot forming apparatus; and a system controller for controlling said blank loader, said blank feeder, and said conveyor, and sharing signals between controllers of said robot, said furnace, and said hot forming apparatus. 11. A method for hot forming a plurality of parts, comprising the steps of: conveying a plurality of blanks along a plurality of shelves of a furnace; heating the plurality of blanks using a heater disposed adjacent each shelf; removing the heater and the adjacent shelf from the furnace when the heater is malfunctioning while continuing to heat the blanks on the other shelves; conveying the heated blanks from the furnace to a hot forming apparatus; and shaping the heated blanks in the hot forming apparatus. 12. The method of claim 11 , wherein the furnace includes a plurality of chambers stacked vertically relative to one another, and each of the chambers contains one of the shelves and one of the heaters. 13. The method of claim 12 including removing one of the chambers from the stack when the heater contained therein is malfunctioning; and continuing to heat the blanks in the other chambers. 14. The method of claim 13 including fixing the malfunctioning heater while continuing to heat the blanks in the other chambers. 15. The method of claim 12 including heating at least one of the chambers to a temperature different from other chambers. 16. The method of claim 12 including feeding the blanks to the shelves of the chambers by disposing the blanks on a blank loader including a plurality of driven rollers, moving the blank loader vertically relative to the shelves, and bypassing one of the chambers when the heater contained therein is malfunctioning. 17. The method of claim 11 wherein the step of conveying the heated blanks from the furnace to the hot forming apparatus includes insulating the blanks from the outside environment and conveying the heated blanks directly from the furnace to the hot forming apparatus. 18. The method of claim 11 wherein the shaping step includes shaping one of the blanks into a plurality of shaped parts. 19. The method of claim 18 including cooling the shaped parts at different rates in the hot forming apparatus. 20. The method of claim 11 , wherein the blanks are formed of a steel material, the furnace includes a plurality of chambers stacked vertically relative to one another, each of the chambers contains one the shelves and one of the heaters, and each of the shelves includes a plurality of driven rollers; the step of conveying the heated blanks along the shelves includes moving the blanks along the plurality of driven rollers; the step of conveying the heated blanks from the furnace to the hot forming apparatus includes conveying the heated blanks along a plurality of driven rollers of a blank feeder; the step of conveying the heated blanks from the furnace to the hot forming apparatus further includes moving the blank feeder vertically along the stack of chambers and conveying the heated blanks from each of the chambers to the hot forming apparatus; the shaping step includes simultaneously shaping a plurality of the blanks, and shaping one of the blanks in a plurality of cavities to form a plurality of shaped parts; and further comprising: feeding the plurality of blanks formed of a steel material into the chambers by disposing the blanks on a blank loader including a plurality of driven rollers, aligning the driven rollers of the blank loader with the driven rollers of one of the shelves, and moving the blank loader vertic