Support and compression assemblies for curvilinear molten metal transfer device

The invention claimed is: 1. A curvilinear metal transfer device comprising: an outer casing comprising a curvilinear inner wall and a curvilinear outer wall, wherein the outer casing includes individual sections that are joined together at casing joints by a plurality of compression assemblies; and an inner refractory positioned within the outer casing and comprising a curvilinear inner wall and a curvilinear outer wall, wherein the inner refractory includes sections that abut one another at refractory joints, wherein the compression assemblies are compressible in circumferential directions to reduce gaps between the sections of the inner refractory, and wherein the compression assemblies are configured to account for lesser expansion of the curvilinear inner wall of the inner refractory than the curvilinear outer wall of the inner refractory. 2. The curvilinear metal transfer device of claim 1 , wherein each of the casing joints comprises a first side proximate the curvilinear inner wall of the inner refractory and a second side proximate the curvilinear outer wall of the inner refractory, and wherein the first side and the second side each comprise a stationary flange attached to the outer casing and a compression flange that is movable relative to the stationary flange. 3. The curvilinear metal transfer device of claim 2 , wherein each of the plurality of compression assemblies includes a fastener, a locking nut, and one or more spring washers that allow limited movement of the compression flanges. 4. The curvilinear metal transfer device of claim 1 , further comprising a plurality of clamp plates arranged along and compressibly fastened to a top of the outer casing, wherein each of the plurality of clamp plates is operably engaged with an upper portion of the inner refractory to help maintain an alignment of the inner refractory. 5. The curvilinear metal transfer device of claim 4 , wherein each of the plurality of clamp plates includes a locator pin receivable within a groove of the upper portion of the inner refractory. 6. The curvilinear metal transfer device of claim 4 , wherein each of the plurality of clamp plates includes a fastener and one or more spring washers to allow for a limited amount of vertical movement between the clamp plate and the inner refractory. 7. The curvilinear metal transfer device of claim 1 , wherein the inner refractory is supported within the outer casing by a plurality of compressible support assemblies, each of the plurality of compressible support assemblies comprising: a push rod having a proximal end and an opposed distal end that is configured to bear against the inner refractory, the push rod made of a heat-insulating material; a cap with a shoulder surface and a distal sleeve extending from the shoulder surface that fits over the proximal end of the push rod, wherein a wall of the distal sleeve extends for a length smaller than a length of the push rod; a plate configured to mount to the outer casing and defining an aperture through which the push rod extends; a fastener attached to the plate proximal of the push rod, the fastener having a distal abutment surface; and at least one spring washer mounted on the cap and configured to engage the shoulder surface of the cap and the distal abutment surface of the fastener so as to bias the push rod against the inner refractory. 8. The curvilinear metal transfer device of claim 1 , further comprising: a plurality of lids for covering the inner refractory, wherein each of the plurality of lids includes a first end and a second end, wherein the first end comprises a cavity and the second end comprises a protrusion receivable within the cavity, wherein the plurality of lids nest together in an arrangement such that the protrusion of the second end of one of the plurality of lids interlocks with the cavity of the first end of another one of the plurality of lids, and wherein the arrangement allows one of the plurality of lids to be removed without requiring that all of the plurality of lids be removed. 9. A curvilinear metal transfer device of claim 1 , wherein a plurality of lids are configured to nest together to generally cover a top of the curvilinear metal transfer device. 10. The curvilinear metal transfer device of claim 9 , wherein each of the plurality of lids is dimensioned to correspond to dimensions of a section of the inner refractory. 11. The curvilinear metal transfer device of claim 9 , wherein each of the plurality of lids includes a first end and a second end, wherein the first end comprises a cavity and the second end comprises a protrusion receivable within the cavity. 12. The curvilinear metal transfer device of claim 11 , further comprising a clamp to help keep one or more of the plurality of lids in position. 13. The curvilinear metal transfer device of claim 9 , wherein the plurality of lids nest together in an arrangement such that a protrusion of a second end of one of the plurality of lids interlocks with a cavity of a first end of another one of the plurality of lids, wherein the arrangement allows one of the plurality of lids to be removed without requiring that all of the plurality of lids be removed. 14. The curvilinear metal transfer device of claim 9 , wherein individual sections of the outer casting are joined together at casing joints by a plurality of compression assemblies, wherein individual sections of the refractory abut one another at refractory joints, and wherein the compression assemblies are configured to account for lesser expansion of the curvilinear inner wall of the inner refractory than the curvilinear outer wall of the inner refractory, wherein each of the casing joints comprises a first side proximate the curvilinear inner wall of the inner refractory and a second side proximate the curvilinear outer wall of the inner refractory, and wherein the first side and the second side each comprise a stationary flange attached to the outer casing and a compression flange that is movable relative to the stationary flange. 15. A curvilinear metal transfer device of claim 1 , wherein the inner refractory is supported within the outer casing by a plurality of compressible support assemblies, each of the plurality of compressible support assemblies comprising: a push rod having a proximal end and an opposed distal end that is configured to bear against the inner refractory, the push rod made of a heat-insulating material; a plate configured to mount to the outer casing and defining an aperture through which the push rod extends; a fastener attached to the plate proximal of the push rod, the fastener having a distal abutment surface; and at least one spring washer positioned between the push rod and the fastener so as to bias the push rod against the inner refractory. 16. The curvilinear metal transfer device of claim 15 , wherein each of the plurality of compressible support assemblies further comprises a cap with a shoulder surface and a distal sleeve extending from the shoulder surface that fits over the proximal end of the push rod, wherein a wall of the distal sleeve extends for a length smaller than a length of the push rod, and wherein the at least one spring washer is mounted on the cap to engage the shoulder surface of the cap and the distal abutment surface of the fastener. 17. The curvilinear metal transfer device of claim 16 , wherein the fastener comprises an axially aligned sleeve shaped to receive an extension of the cap. 18. The curvilinear metal transfer device of claim 17 , wherein the fastener is configured to compress