Sacrificial spacer for well tool inner seal

What is claimed is: 1. A drill bit, comprising: an outer seal interposed radially between a cone and a journal of the drill bit and sealingly engaged with the journal and cone, to not permit communication of well fluid across the outer seal; an inner seal positioned in a groove formed on either the cone or the journal not sealingly in contact with the journal and cone, and not exposed to well fluid: and a circumferential spacer positioned radially between the inner seal and a surface of either the cone or the journal radially opposite the groove, the circumferential spacer including a material that radially spaces apart the inner seal from the surface, wherein there is a greater coefficient of friction between the circumferential spacer and the inner seal than between the circumferential spacer and the surface, such that there is relative sliding motion between the circumferential spacer and the surface, but not relative sliding motion between the inner seal and the groove or between the inner seal and the circumferential spacer, such that the inner seal and outer seal perform their sealing functions in series time-wise, at substantially different time intervals. 2. The drill bit of claim 1 , wherein the circumferential spacer is positioned upstream of the outer seal relative to a lubricant supply of the drill bit. 3. The drill bit of claim 1 , further comprising an equalizing passage which permits fluid communication across the circumferential spacer. 4. The drill bit of claim 3 , wherein the equalizing passage is formed in the circumferential spacer. 5. The drill bit of claim 3 , wherein the equalizing passage permits fluid communication between a lubricant supply of the drill bit and a space defined between the inner and outer seals. 6. The drill bit of claim 1 , wherein the circumferential spacer and the inner seal are separate elements of the drill bit. 7. The drill bit of claim 6 , wherein the circumferential spacer is positioned between the outer seal and retaining balls which retain the cone on the journal. 8. The drill bit of claim 1 , wherein a portion of the circumferential spacer in contact with the inner seal is textured. 9. The drill bit of claim 8 , wherein the portion of the circumferential spacer in contact with the inner seal comprises protrusions and/or recesses. 10. The drill bit of claim 1 , wherein a portion of the circumferential spacer in contact with the either the journal or the cone, whichever does not contain the groove in which the inner seal is positioned, is smooth. 11. The drill bit of claim 10 , wherein the portion of the circumferential spacer in contact with either the journal or the cone, whichever does not contain the groove in which the inner seal is positioned, comprises poly-tetra-fluoro-ethylene (PTFE) or poly-ether-ether-ketone (PEEK)). 12. The drill bit of claim 1 , wherein the circumferential spacer has a rounded side in contact with the inner seal and a flat side in contact with either the journal or the cone, whichever does not contain the groove in which the inner seal is positioned. 13. The drill bit of claim 1 , wherein the circumferential spacer comprises a first arm positioned between the inner seal and either the journal or the cone, whichever does not contain the groove in which the inner seal is positioned, and a second arm positioned on a side of the inner seal facing the outer seal. 14. A method of sealing between a journal and a cone of a drill bit, the drill bit including: an outer seal interposed radially between a cone and a journal of the drill bit and sealingly engaged with the journal and cone to not permit communication of well fluid across the outer seal; an inner seal downstream from the outer seal with respect to an annular fluid entry path, positioned in a groove formed on either the cone or the journal, not sealingly in contact with the journal and cone, and not exposed to well fluid; and a circumferential spacer positioned radially between the inner seal and a surface of either the cone or the journal radially opposite the groove, the circumferential spacer including a material that radially spaces apart the inner seal from the surface, wherein there is a greater coefficient of friction between the circumferential spacer and the inner seal than between the circumferential spacer and the surface, such that there is relative sliding motion between the circumferential spacer and the surface, but not relative sliding motion between the inner seal and groove or between the inner seal and the circumferential spacer; the method comprising: rotating the cone about the journal until the outer seal fails and communication of well fluid is permitted across the outer seal; wearing away the circumferential spacer by the well fluid; and sealingly engaging the inner seal radially between the journal and the cone only after well fluid communication is permitted across the outer seal and the circumferential spacer is worn away to permit contact between the inner seal and either the journal or cone, such that the inner seal and outer seal perform their sealing functions in a series time-wise, at substantially different time intervals. 15. The method of claim 14 , further comprising lubricant flow across the circumferential spacer to or from a space defined between the inner seal and outer seal via an equalizing passage in the circumferential spacer. 16. The method of claim 14 , wherein the circumferential spacer experiences higher friction between itself and the inner seal than between itself and either the journal or the cone when used to drill a wellbore.