Valve cap adapter and arrangement and method of removing a valve cap

We claim: 1. A valve cap adapter configured to be coupled to a valve cap including a tubular wall including at least one pair of attachment holes extending through the tubular wall, the valve cap adapter comprising: a body including an upper surface, a lower surface, a cylindrical sidewall extending between the upper surface and lower surface, and at least two coupling holes, the coupling holes being axially aligned with one another; a cap adapter coupling structure extending axially from the upper surface of the body, the cap adapter coupling structure including a hex head secured with the body; and an extension protruding axially from the lower surface. 2. A valve cap adapter configured to be coupled to a valve cap including a tubular wall including at least one pair of attachment holes extending through the tubular wall, the valve cap adapter comprising: a body including an upper surface, a lower surface, a cylindrical sidewall having a tapered cylindrical structure extending between the upper surface and lower surface, and at least two coupling holes, the coupling holes being axially aligned with one another, and a cap adapter coupling structure extending axially from the upper surface of the body, the cap adapter coupling structure including a hex head secured with the body. 3. The valve cap adapter of claim 2 wherein the at least two coupling holes unite to form a through hole extending through the body. 4. An arrangement for removing a valve cap from a valve body, the valve cap being engaged with the valve body, the valve cap including at least one attachment hole, the arrangement comprising: a cap adapter including a cap adapter coupling structure, and at least one coupling rod, the at least one elongated coupling rod being configured to be received into the at least one attachment hole, and a torque multiplier including a head containing a plurality of gears and an output drive, and an input engagement structure, the output drive of the torque multiplier being configured to be coupled with the cap adapter coupling structure to prevent relative rotation between the output drive of the torque multiplier and the cap adapter coupling structure, the plurality of gears being configured to receive an input torque from the input engagement structure, and provide an output torque to the output drive, the output torque being greater than the input torque. 5. The arrangement of claim 4 wherein the valve cap includes a tubular wall extending from an upper surface of the valve body, the at least one attachment hole extending through the tubular wall, the cap adapter includes a body having a sidewall, the sidewall being configured to be disposed substantially adjacent the tubular wall, the body including at least one coupling hole, the at least one coupling hole being configured to align with the at least one attachment hole of the valve cap, and the at least one coupling rod is configured to be received through the at least one attachment hole and the at least one coupling hole. 6. The arrangement of claim 5 wherein the valve cap includes at least one pair of attachment holes, and wherein the at least one coupling hole of the cap adapter includes at least a pair of coupling holes, the coupling holes being axially aligned with one another, and being configured to be aligned with the attachment holes of the valve cap. 7. The arrangement of claim 4 wherein the plurality of gears includes a planetary gearing arrangement wherein an input torque exerted on the input engagement structure is increased by the planetary gearing arrangement as applied to the cap adapter by the output drive. 8. The arrangement of claim 7 wherein the input engagement structure is configured to provide rotation to a gear of the planetary gearing arrangement. 9. The arrangement of claim 4 wherein the torque multiplier includes a socket adapter, the socket adapter being configured to be coupled with the cap adapter coupling structure and coupled with the output drive of the head of the torque multiplier. 10. The arrangement of claim 9 wherein the output drive of the torque multiplier includes an axially-extending geometric protrusion, and the socket adapter includes a first socket adapter coupling structure configured to cooperate with the cap adapter coupling structure, and a second socket adapter coupling structure configured to cooperate with the geometric protrusion of the output drive of the torque multiplier. 11. The arrangement of claim 10 wherein the plurality of gears includes a planetary gearing arrangement including at least one sun gear, and wherein the cap adapter coupling structure includes a hex head, the first socket adapter coupling structure includes a hexagonally-shaped recess, and the second socket adapter coupling structure includes a geometric recess configured to receive the geometric protrusion of the output drive, wherein the geometric recess, the hexagonally-shaped recess, and the hex head are configured to axially align the at least one sun gear with the valve cap. 12. A method of removing a valve cap from a valve body, the valve cap being threadedly engaged with the valve body, the valve cap including at least one attachment hole, the method comprising: providing a cap adapter including a cap adapter coupling structure and at least one coupling rod, inserting the at least one coupling rod through the at least one attachment hole to couple the cap adapter to the valve cap, coupling an output drive of a torque multiplier with the cap adapter coupling structure to prevent relative rotation between the torque multiplier and the cap adapter coupling structure, and exerting an input torque on the torque multiplier to rotate the cap adapter and the valve cap, the input torque exerted on the torque multiplier being increased by the torque multiplier such that an output torque exerted on the cap adapter is greater than the input torque. 13. The method of claim 12 wherein coupling the output drive of the torque multiplier includes coupling an output drive of a torque multiplier including a plurality of gears wherein the plurality of gears increases the input torque exerted on the torque multiplier. 14. The method of claim 13 wherein the plurality of gears includes a planetary gearing arrangement. 15. The method of claim 13 wherein coupling the output drive of the torque multiplier includes coupling a torque multiplier head of the torque multiplier with the cap adapter, the torque multiplier head including said plurality of gears, and exerting the input torque includes exerting an input force on an input engagement structure. 16. The method of claim 15 further including coupling the valve body to a support structure, and securing at least a portion of the torque multiplier against rotation, and wherein exerting the input torque further includes coupling a wrench to the input engagement structure and exerting the input force on an extended handle of the wrench. 17. The method of claim 12 wherein coupling the output drive of the torque multiplier includes coupling a socket adapter of the torque multiplier with the cap adapter coupling structure, and coupling the output drive with the socket adapter. 18. The method of claim 17 wherein coupling the output drive of the torque multiplier further includes coupling a first socket adapter coupling structure with the cap adapter coupling structure, and coupling the output drive of the torque multiplier with a second socket adapter coupling structure. 19. The method of claim 12 wherein the valve cap