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A threadless grounding bushing for placement on an end of an EMT or rigid electrical conduit has a bushing body with a first portion with an inner smooth cylindrical surface dimensioned for receipt of a rigid conduit; a second portion with a central bore for the passage of conductors therethrough, t

A threadless grounding bushing for placement on an end of an EMT or rigid electrical conduit has a bushing body with a first portion with an inner smooth cylindrical surface dimensioned for receipt of a rigid conduit; a second portion with a central bore for the passage of conductors therethrough, the second portion dimensioned to form a stop relative to a terminating end of a rigid conduit or EMT received in the first portion; at least one set screw that extends through the first portion to make contact with the EMT or rigid conduit; a lug secured to the bushing body having an opening to secure a ground conductor thereto; and a removable spacer with an inner surface corresponding to the outer surface of an EMT and having an outer surface corresponding to the inner smooth cylindrical surface of the first portion of the bushing body.

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1. A threadless grounding bushing for placement on an end of an electrical metallic tubing (EMT) or an end of a rigid electrical conduit, comprising: a metal bushing body, cylindrical in shape, having a first portion with an inner smooth cylindrical surface extending inwardly from a first end of the

1. A threadless grounding bushing for placement on an end of an electrical metallic tubing (EMT) or an end of a rigid electrical conduit, comprising: a metal bushing body, cylindrical in shape, having a first portion with an inner smooth cylindrical surface extending inwardly from a first end of the metal bushing body, the inner smooth cylindrical surface having a radius of curvature dimensioned for receipt of the rigid electrical conduit, the metal bushing body further having second portion positioned adjacent the inner smooth cylindrical surface, the second portion having a central bore for the passage of conductors therethrough, the second portion dimensioned so as to form a stop relative to a terminating end of the rigid conduit or EMT received in the inner smooth cylindrical surface of said first portion, the first portion having at least one threaded hole for receipt of a screw so as to make mechanical and electrical contact with the EMT or rigid conduit when the EMT or rigid conduit is received in the inner smooth cylindrical surface of said first portion,a lug having an opening, the lug secured to the metal bushing body so as to make mechanical and electrical contact to the metal bushing body,a fastener threaded into said lug and extending into the opening so as to secure a ground conductor thereto, anda removable spacer having a shape that is a section of a cylinder, the removable spacer having an inner smooth surface with a radius of curvature substantially corresponding to a radius of curvature of an outer surface of the EMT, the removable spacer also having an outer smooth surface corresponding to the radius of curvature of the inner smooth cylindrical surface of the first portion of the metal bushing body. 2. The grounding bushing according to claim 1, wherein the removable spacer includes a post extending from the outer surface of the removable spacer, the post dimensioned for insertion into an aperture formed in the inner smooth cylindrical surface of the first portion of the metal bushing body. 3. The grounding bushing according to claim 2, wherein the aperture passes through the first portion of the metal bushing body. 4. The grounding bushing according to claim 2, wherein the removable spacer further includes a slot formed therein dimensioned for insertion of a tool between the removable spacer and the inner smooth cylindrical surface of the first portion of the metal bushing body so as to assist in removal of the removable spacer from the metal bushing body. 5. The grounding bushing according to claim 4, further including an insulating ring positioned at a second end of the metal bushing body so as to minimize conductor chafing for conductors emanating out of an EMT or rigid conduit received in the first portion. 6. The grounding bushing according to claim 5, wherein the insulating ring is fabricated from plastic. 7. The grounding bushing according to claim 4, wherein the insulating ring is L-shaped and further positioned against an internal ridge of the second portion forming said stop. 8. The grounding bushing according to claim 2, further including an insulating ring positioned at a second end of the metal bushing body so as to minimize conductor chafing for conductors emanating out of an EMT or rigid conduit received in the first portion. 9. The grounding bushing according to claim 8, wherein the insulating ring is fabricated from plastic. 10. The grounding bushing according to claim 2, wherein the lug is secured to a rib formed on an outer surface of the metal bushing body. 11. The grounding bushing according to claim 1, wherein the second portion is cylindrical in shape with a radius of curvature smaller than the radius of curvature of the inner smooth cylindrical surface of the portion of the metal bushing body. 12. The grounding bushing according to claim 11, further including an insulating ring positioned at a second end of the metal bushing body so as to minimize conductor chafing for conductors emanating out of an EMT or rigid conduit received in the first portion. 13. The grounding bushing according to claim 12, wherein the insulating ring is fabricated from plastic. 14. The grounding bushing according to claim 1, wherein the removable spacer further includes a slot formed therein dimensioned for insertion of a tool between the removable spacer and the inner smooth cylindrical surface of the first portion of the metal bushing body so as to assist in removal of the removable spacer from the metal bushing body. 15. The grounding bushing according to claim 1, further including an insulating ring positioned at a second end the metal bushing body so as to minimize conductor chafing for conductors emanating out of an EMT or rigid conduit received in the first portion. 16. The grounding bushing according to claim 1, wherein the lug is secured to a rib formed on an outer surface of the metal bushing body. 17. The grounding bushing according to claim 1, wherein the lug is secured to the metal bushing body by a fastener threadedly engaged with a threaded hole in the metal bushing body, thereby allowing the lug to be rotatably positioned relative to the metal bushing body. 18. The grounding bushing according to claim 17, wherein the lug has a serrated bottom portion to facilitate mechanical and electrical securement to the metal bushing body. 19. The grounding bushing according to claim 1, wherein the at least one threaded hole in the first portion is two threaded holes for receipt of two screws so as to facilitate alignment of the EMT with the central bore of the second portion. 20. The grounding bushing according to claim 1, wherein the removable spacer is fabricated from metal. 21. The grounding bushing according to claim 20, wherein the removable spacer includes a post extending from the outer surface of the removable spacer, the post dimensioned for insertion into an aperture formed in the inner smooth cylindrical surface of the first portion of the metal bushing body. 22. The grounding bushing according to claim 21, wherein the aperture passes through the first portion of the metal bushing body. 23. The grounding bushing according to claim 22, wherein the removable spacer further includes a slot formed therein dimensioned for insertion of a tool between the removable spacer and the inner smooth cylindrical surface of the first portion of the metal bushing body so as to assist in removal of the removable spacer from the metal bushing body. 24. The grounding bushing according to claim 21, wherein the removable spacer further includes a slot formed therein dimensioned for insertion of a tool between the removable spacer and the inner smooth cylindrical surface of the first portion of the metal bushing body so as to assist in removal of the removable spacer from the metal bushing body. 25. The grounding bushing according to claim 20, wherein the lug is secured to a rib formed on an outer surface of the metal bushing body. 26. The grounding bushing according to claim 20, wherein the lug is secured to the metal bushing body by a fastener threadedly engaged with a threaded hole in the metal bushing body, thereby allowing the lug to be rotatably positioned relative to the metal bushing body. 27. The grounding bushing according to claim 20, wherein the metal is zinc alloy. 28. The grounding bushing according to claim 20, further including an insulating ring positioned at a second end of the metal bushing body so as to minimize conductor chafing for conductors emanating out of an EMT or rigid conduit received in the first portion.