Chill block for die cast machine

What is claimed is: 1. A die cast machine having a die cast mold, comprising: a die component, the die component comprising: a die surface defining a portion of the die cast mold; and a back surface opposite the die surface, the back surface comprising a recessed area having a first cross-sectional shape and a depth; a back block supporting the die component, the back block comprising: a protrusion, the protrusion having a second cross-sectional shape and a first height; wherein the second cross-sectional shape is substantially similar to the first cross-sectional shape of the recessed area of the die component, the protrusion being received within the recessed area; and wherein the first height of the protrusion is less than the depth of the recessed area; a chill block positioned between the die component and the back block, the chill block having a third cross-sectional shape and a second height; and wherein a sum of the first height and the second height is substantially equal to the depth of the recessed area. 2. The die cast machine of claim 1 wherein the chill block further comprises: a cooling channel for circulating a coolant through the chill block. 3. The die cast machine of claim 2 wherein the die component further comprises: a die cooling channel, the die cooling channel being in fluid communication with the cooling channel in the chill block. 4. The die cast machine of claim 3 wherein the third cross-sectional shape is substantially similar to the first and second cross-sectional shapes. 5. The die cast machine of claim 4 wherein the chill block further comprises: a first block having a first side and a second side, a first portion of the cooling channel being formed into the second side, the first block having a coolant inlet in the first portion of the cooling channel and a coolant outlet; and a second block having a first side and a second side, the first side being adjacent the second side of the first block, the second block having a first aperture having a first diameter and enabling fluid communication between the first portion of the cooling channel and the die cooling channel, the second block having an outlet aperture aligned with the coolant outlet. 6. The die cast machine of claim 5 wherein the chill block further comprises: a third block having a first side and a second side, the first side of the third block being adjacent the second side of the second block, the third block comprising: a second portion of the cooling channel formed in the first side of the third block; and a second aperture enabling fluid communication between the second portion of the cooling channel and the die cooling channel, the second aperture having a second diameter and the second aperture being aligned with the first aperture. 7. The die cast machine of claim 6 further comprising: a seal inserted in the second aperture to provide a seal between the die cooling channel and the chill block. 8. The die cast machine of claim 7 further comprising: a cooling straw having a third diameter, the third diameter being substantially the same as the first diameter and less than the second diameter, the cooling straw inserted through the second aperture and into the first aperture. 9. The die cast machine of claim 8 wherein coolant flows through the coolant inlet into the first portion of the cooling channel, into the cooling straw, into the die cooling channel, into the second portion of the cooling channel, and out the coolant outlet. 10. The die cast machine of claim 6 wherein the chill block is comprised of a thermoplastic, aluminum, steel, or stainless steel. 11. A die cast machine having a die cast mold, comprising: a die component, the die component comprising: a die surface defining a portion of the die cast mold; a back surface opposite the die surface, the back surface comprising a protrusion having a first cross-sectional shape and a first height; and a die cooling channel located in the die component, the die cooling channel having a die opening in the protrusion; a back block supporting the die component, the back block comprising: a recessed area, the recessed area having a second cross-sectional shape and a depth; wherein the second cross-sectional shape is substantially similar to the first cross-sectional shape of the protrusion of the die component, the protrusion being received within the recessed area; and wherein the first height of the protrusion is less than the depth of the recessed area; and a chill block positioned between the die component and the back block, the chill block having a third cross-sectional shape and a second height, the chill block comprising: a cooling channel for circulating a coolant through the chill block in fluid communication with the die cooling channel; and wherein a sum of the first height and the second height is substantially similar to the depth of the recessed area.