[Electric engineering.] . Fig. 28. Fig. 28 shows the joint made and Fig. 29 shows it make the joint, the lead armor, or sheath, E is strippeda sufficient distance from the end to permit the slipping onof the hard-rubber jacket H, after the terminal S1 has beensoldered to the copper conductor IV, first tinning the end ofthe copper conductor IV and also the terminal Sr Onepart of the hard-rubber jacket H is slipped through one. part of the brass coupling B, then the hard-rubber jacket H,with the brass coupling B, is passed over the terminal Slfand the piece S„ is screwed on contact ter
[Electric engineering.] . Fig. 28. Fig. 28 shows the joint made and Fig. 29 shows it make the joint, the lead armor, or sheath, E is strippeda sufficient distance from the end to permit the slipping onof the hard-rubber jacket H, after the terminal S1 has beensoldered to the copper conductor IV, first tinning the end ofthe copper conductor IV and also the terminal Sr Onepart of the hard-rubber jacket H is slipped through one. part of the brass coupling B, then the hard-rubber jacket H,with the brass coupling B, is passed over the terminal Slfand the piece S„ is screwed on contact terminal Sy Purerubber, which generally comes in sheets, is cut into stripsabout 1 inch or 1£ inches wide, and the joint is taped asshown at C, allowing the tape to lap over the cable armorabout 1 inch. The rubber tape is afterwards covered with 15 ELECTRIC TRANSMISSION. 25 other tape and then treated with compound. The soft-rubber ring R is then placed as shown, and the jointclamped tightly together, after which the whole joint iscovered with tape and insulating compound.
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Keywords: ., bookcentury1900, bookdecade1900, bookidelectricengi, bookyear1902
