Helical device for cooling or heating

What is claimed is: 1. A device useful for cooling or heating objects that pass through the device, comprising a housing having a bottom, top, and side walls, which create an enclosed space, and including first and second openings each of which is present through a side wall between the enclosed space and the exterior of the housing, an endless movable belt that extends between the first and second openings and that follows within the housing a path a portion of which is in the form of a helix which is oriented vertically around a vertical central space within the housing and includes a plurality of tiers of the belt that are arrayed vertically, outlets within the housing that are capable of dispensing heat transfer medium into the interior of the housing, one or more than one fan that is positioned in the vertical central space and that has blades oriented so as to be capable of impelling gaseous heat transfer medium vertically through the blades and capable of impelling movement of gaseous heat transfer medium across the tiers in the housing, wherein the one or more than one fan is attached by a drive shaft to a motor that is capable of rotating the shaft and the fan, and wherein the fan is positioned in the vertical central space at a height such that at least one tier of the belt in the helix is located below the fan and at least one tier of the belt in the helix is located above the fan; wherein there is circulation space within the housing between all of the exterior edges of the belt in the helix and the interior surfaces of the side walls, and between the topmost tier of the belt and the interior surface of the top wall, and there are openings between the vertical central space and the interior edges of the belt in the helix, so that gaseous heat transfer medium can be impelled by the fan across the upper surfaces of the tiers of the belt in the helix between the central space and the circulation space. 2. A device according to claim 1 wherein there is one such fan that is positioned in the vertical central space. 3. A device according to claim 1 wherein there is no structure present above the fan that would impede flow of gaseous heat transfer medium between the central space and the top surfaces of the tiers of the belt in the helix. 4. A device according to claim 1 wherein there is no structure present that would prevent flow of gaseous heat transfer medium between the topmost tier of the belt in the housing and the top wall of the housing. 5. A device according to claim 2 wherein there is no structure present above the fan that would impede flow of gaseous heat transfer medium between the central space and the top surfaces of the tiers of the belt in the helix. 6. A device according to claim 2 wherein there is no structure present that would prevent flow of gaseous heat transfer medium between the topmost tier of the belt in the housing and the top wall of the housing. 7. A device useful for cooling or heating objects that pass through the device, comprising a housing having a bottom, top, and side walls, which create an enclosed space, and including first and second openings each of which is present through a side wall between the enclosed space and the exterior of the housing, an endless movable belt that extends between the first and second openings and that follows within the housing a path a portion of which is in the form of a helix which is oriented vertically around a vertical central space within the housing and includes a plurality of tiers of the belt that are arrayed vertically, outlets within the housing that are capable of dispensing heat transfer medium into the interior of the housing, two fans that are positioned in the vertical central space and that have blades oriented so as to be capable of impelling gaseous heat transfer medium vertically through the blades and capable of impelling movement of gaseous heat transfer medium across the tiers in the housing, wherein the fans are attached one above the other to a common drive shaft that is attached to a motor that is capable of rotating the shaft and the fans, or to separate drive shafts each attached to a motor that is capable of rotating the shaft and the fan, and wherein the fans are positioned in the vertical central space at heights such that at least one tier of the belt in the helix is located above the higher fan, and at least one tier of the belt in the helix is located below the lower fan, and a plurality of tiers of the belt in the helix are located between the fans; wherein there is circulation space within the housing between all of the exterior edges of the belt in the helix and the interior surfaces of the side walls, and between the topmost tier of the belt and the interior surface of the top wall, and there are openings between the vertical central space and the interior edges of the belt in the helix, so that gaseous heat transfer medium can be impelled by the fans across the upper surfaces of the tiers of the belt in the helix between the central space and the circulation space. 8. A device according to claim 7 wherein there is no structure present above the fan that would impede flow of gaseous heat transfer medium between the central space and the top surfaces of the tiers of the belt in the helix. 9. A device according to claim 7 wherein there is no structure present that would prevent flow of gaseous heat transfer medium between the topmost tier of the belt in the housing and the top wall of the housing. 10. A method for cooling or heating objects, comprising (A) providing a housing having (1) a bottom, top, and side walls, which create an enclosed space, and including first and second openings each of which is present through a side wall between the enclosed space and the exterior of the housing, (2) an endless movable belt that extends between the first and second openings and that follows within the housing a path a portion of which is in the form of a helix which is oriented vertically around a vertical central space within the housing and includes a plurality of tiers of the belt that are arrayed vertically, (3) outlets within the housing that are capable of dispensing heat transfer medium into the interior of the housing, and (4) circulation space within the housing between all of the exterior edges of the belt in the helix and the interior surfaces of the side walls, and between the topmost tier of the belt and the interior surface of the top wall, and there are openings between the vertical central space and the interior edges of the belt in the helix; (B) operating one or more than one fan that is positioned in the vertical central space at a height such that at least one tier of the belt in the helix is located below the fan and at least one tier of the belt in the helix is located above the fan, and that has blades oriented so as to be capable of impelling gaseous heat transfer medium vertically through the blades and capable of impelling movement of gaseous transfer medium across the tiers in the housing, to cause gaseous heat transfer medium to flow from the circulation space to the central opening between adjacent tiers of the belt in the helix that are on one side of the fan, and to cause gaseous heat transfer medium to flow from the central opening to the circulation space between adjacent tiers of the belt in the helix that are on the other side of the fan; and (C) moving the belt through the housing with objects on the belt while dispensing heat transfer medium into the interior of the housing that chills or heats the objects. 11. A method according to claim 10 wherein the objects comprise food. 12. A method according to claim 10 wherein one such fan