Apparatus with a rotary seal assembly axially coincident with a shaft tilting focal point

I claim: 1. An apparatus for use in drilling a borehole, comprising: (a) a housing defining a housing bore; (b) a shaft rotatably extending through the housing bore, wherein the shaft is capable of an amount of radial deflection within the housing bore and an amount of tilting within the housing bore about a tilting focal point, and wherein the tilting focal point is axially located along the housing at an axial focal point position; (c) a tilting mechanism for accommodating the tilting of the shaft and for providing the tilting focal point, wherein the tilting mechanism is contained within the housing bore and is radially interposed between the housing and the shaft, wherein the tilting mechanism comprises a focal bearing assembly, and wherein the focal bearing assembly is a rolling element bearing assembly comprising one or more rolling element bearings; and (d) a rotary seal assembly contained within the housing bore for providing a seal between the housing and the shaft, wherein the rotary seal assembly is axially located along the housing at an axial rotary seal position, and wherein the axial rotary seal position is axially coincident with the axial focal point position. 2. The apparatus as claimed in claim 1 wherein the focal bearing assembly is a double row focal bearing assembly. 3. The apparatus as claimed in claim 2 wherein the double row focal bearing assembly is comprised of a first focal bearing row, wherein the first focal bearing row is axially located along the housing at an axial first row position, wherein the double row focal bearing assembly is comprised of a second focal bearing row, wherein the second focal bearing row is axially located along the housing at an axial second row position, and wherein the axial focal point position is between the axial first row position and the axial second row position so that the axial rotary seal position is between the axial first row position and the axial second row position. 4. The apparatus as claimed in claim 3 wherein the housing has an internal side and an external side, wherein the internal side and the external side are separated by the rotary seal assembly, wherein the axial first row position is on the internal side of the housing, and wherein the axial second row position is on the external side of the housing. 5. The apparatus as claimed in claim 4 , further comprising a first thrust bearing assembly contained within the housing bore for supporting the shaft within the housing and transferring axial loads between the housing and the shaft, wherein the first thrust bearing assembly is axially located along the housing at an axial first thrust bearing position, and wherein the axial first thrust bearing position is on the internal side of the housing. 6. The apparatus as claimed in claim 5 , further comprising a second thrust bearing assembly for supporting the shaft within the housing and transferring axial loads between the housing and the shaft, wherein the second thrust bearing assembly is axially located along the housing at an axial second thrust bearing position, and wherein the axial second thrust bearing position is on the external side of the housing. 7. The apparatus as claimed in claim 1 wherein the focal bearing assembly is a single row focal bearing assembly. 8. The apparatus as claimed in claim 7 wherein the single row focal bearing assembly is comprised of a single focal bearing row, wherein the single focal bearing row is axially located along the housing at an axial single row position, and wherein the axial focal point position is axially offset from the axial single row position so that the axial rotary seal position is offset from the axial single row position. 9. The apparatus as claimed in claim 8 wherein the housing has an internal side and an external side, wherein the internal side and the external side are separated by the rotary seal assembly, and wherein the axial single row position is on the internal side of the housing. 10. The apparatus as claimed in claim 9 , further comprising a thrust bearing assembly contained within the housing bore for supporting the shaft within the housing and transferring axial loads between the housing and the shaft, wherein the thrust bearing assembly is axially located along the housing at an axial thrust bearing position, and wherein the axial thrust bearing position is on the internal side of the housing. 11. The apparatus as claimed in claim 1 wherein the focal bearing assembly is a roller bearing assembly. 12. The apparatus as claimed in claim 11 wherein the roller bearing assembly is selected from the group of roller bearing assemblies consisting of a spherical roller bearing assembly and a tapered roller bearing assembly. 13. The apparatus as claimed in claim 1 wherein the apparatus is a rotary steerable drilling apparatus. 14. The apparatus as claimed in claim 1 wherein the apparatus is a point-the-bit rotary steerable drilling apparatus comprising a deflection mechanism, for causing the radial deflection of the shaft within the housing bore. 15. The apparatus as claimed in claim 14 wherein the rotary seal assembly is a lower rotary seal assembly in the point-the-bit rotary steerable drilling apparatus, wherein the housing has an internal side and an external side, wherein the internal side and the external side are separated by the rotary seal assembly, wherein the deflection mechanism is axially located along the housing at an axial deflection mechanism position, wherein the deflection mechanism is contained within the housing, and wherein the axial deflection mechanism position is on the internal side of the housing.