Electrical bushing

The invention claimed is: 1. An electrical bushing configured for extending through a wall of an electrical apparatus, the bushing comprising: an electrically insulating shell having a central longitudinal through hole as well as a first longitudinal end configured to be at a top of the bushing outside of the electrical apparatus and a second longitudinal end configured to be at a bottom of the bushing inside of the electrical apparatus; a circumferential groove formed in the shell at the second longitudinal end; wherein the bushing is configured for accommodating an electrical conductor positioned through the central longitudinal through hole of the shell; wherein the shell includes fastening means for fastening the bushing to the wall of the electrical apparatus, through which wall the bushing is configured for allowing the electrical conductor to pass; wherein the shell is configured to sealingly contain an electrically insulating liquid in the bushing by means of the circumferential groove that sealingly meshes with a seal fitted around the electrical conductor, allowing the bushing to be liquid-filled and being configured to prevent leakage between the shell and the electrical conductor at the second longitudinal end; and wherein the shell is moulded as a single piece from an electrically insulating polymeric material. 2. The bushing of claim 1 , wherein the second longitudinal end is configured to sealingly abut the electrical conductor by meshing with the seal in the form of an O-ring around the electrical conductor. 3. The bushing according to claim 2 , wherein the first longitudinal end is configured for sealingly meshing with a lid of the bushing. 4. The bushing of claim 1 , wherein the first longitudinal end is configured to sealingly mesh with a lid of the bushing. 5. The bushing of claim 1 , wherein the means for fastening includes a flange of the shell, the flange including a metal insert. 6. The bushing of claim 5 , wherein the metal insert defines a hole through the flange and is moulded into the flange, and wherein the flange is configured for lying flat against an outside of the wall. 7. The bushing of claim 6 , wherein the metal insert comprises a threaded nut. 8. The bushing of claim 1 , further including a condenser core positioned along and surrounding the longitudinal through hole. 9. The bushing of claim 8 , wherein the shell is provided with means for connecting the condenser core to neutral through the shell. 10. The bushing of claim 9 , wherein the means for connecting the condenser core to neutral comprises an electrical conductor moulded into the shell. 11. The bushing of claim 1 , wherein the polymeric material comprises a thermosetting resin. 12. The bushing of claim 11 , wherein the thermosetting resin comprises an epoxy resin. 13. An electrical apparatus comprising: a bushing that includes: an electrically insulating shell having a central longitudinal through hole as well as a first longitudinal end configured to be at a top of the bushing outside of the electrical apparatus and a second longitudinal end configured to be at a bottom of the bushing inside of the electrical apparatus; a circumferential groove formed in the shell at the second longitudinal end; wherein the bushing is configured for accommodating an electrical conductor positioned through the central longitudinal through hole of the shell; wherein the shell includes fastening means for fastening the bushing to a wall of the electrical apparatus, through which wall the bushing is configured for allowing the electrical conductor to pass; wherein the shell is configured to sealingly contain an electrically insulating liquid in the bushing by means of the circumferential groove that sealingly meshes with a seal fitted around the electrical conductor, allowing the bushing to be liquid-filled and being configured to prevent leakage between the shell and the electrical conductor at the second longitudinal end; and wherein the shell is moulded as a single piece from an electrically insulating polymeric material; the bushing being liquid-filled, extending through the wall of the electrical apparatus and being fastened to said wall by means of the fastening means. 14. The apparatus of claim 13 , wherein the electrical apparatus is a liquid-filled transformer. 15. A method of moulding a shell for an electrical bushing including: using an electrically insulating polymeric material to mould the shell as a single piece, the electrically insulating shell having a central longitudinal through hole as well as a first longitudinal end configured to be at a top of the bushing outside of an electrical apparatus and a second longitudinal end configured to be at a bottom of the bushing inside of the electrical apparatus, the shell having a circumferential groove formed at the second longitudinal end; wherein the bushing is configured for accommodating an electrical conductor positioned through the central longitudinal through hole of the shell; wherein the shell includes fastening means for fastening the bushing to a wall of the electrical apparatus, through which wall the bushing is configured for allowing the electrical conductor to pass; wherein the shell is configured to sealingly contain an electrically insulating liquid in the bushing by means of the circumferential groove that sealingly meshes with a seal fitted around the electrical conductor, allowing the bushing to be liquid-filled and being configured to prevent leakage between the shell and the electrical conductor at the second longitudinal end.