A cable distributor for individual cables that are shielded by an electrically conductive shield. The cable distributor has an electrically insulating outer housing, which receives a connection piece at which at least two individual cables are connected to each another. The shields of the connected individual cables are connected to each other by means of an electrically conductive shield housing, as a result of which a continuous shielding of the current-carrying parts of the cable distributor is achieved. A method for producing such a cable distributor is also proposed.

A first braided wire and a second braided wire that are two cylindrical flexible shield members are fixed with a crimp member at different positions in the circumferential direction on a cross section perpendicular to the longitudinal direction of the electromagnetic shield pipe. Thus, the cylindrical end portions of the braided wires are loosened, and each of sheet-like portions is formed on the end portion, and the sheet-like portions of the end portions of the braided wires are disposed at different positions in the circumferential direction of the electromagnetic shield pipe and fixed with the crimp member on a metal layer of the electromagnetic shield pipe. That is, the braided wires are fixed in a section crimped by the crimp member without being overlapped with each other in the circumferential direction of the electromagnetic shield pipe.

The disclosure relates to a joint, termination or cross-connection arrangement for a cable. The arrangement includes a first cable and a protective casing. The arrangement further includes a transition sleeve. The transition sleeve is welded to the metallic sheath of the first cable. The transition sleeve is furthermore welded to the protective casing. Thereby, a water tight connection between the metallic sheath of the first cable and the protective casing is achieved without the need for used of lead containing materials. The disclosure further relates to a method of providing such an arrangement.

The disclosure relates to a joint, termination or cross-connection arrangement for a cable. The arrangement includes a first cable and a protective casing. The arrangement further includes a transition sleeve. The transition sleeve is welded to the metallic sheath of the first cable. The transition sleeve is furthermore welded to the protective casing. Thereby, a water tight connection between the metallic sheath of the first cable and the protective casing is achieved without the need for used of lead containing materials. The disclosure further relates to a method of providing such an arrangement.

A safe grounding apparatus (SGA) for safely grounding or neutralizing the electrical conductors for permanent magnet motor (PMM) powered artificial lift systems and methods of practicing the same are disclosed. The SGA of the present invention ameliorates some of the dangers associated with PMM's. Methods of shorting, grounding, testing and monitoring the electrical conductors of a permanent magnet motor in order to safely manipulate the conductors are also disclosed.

A safe grounding apparatus (SGA) for safely grounding or neutralizing the electrical conductors for permanent magnet motor (PMM) powered artificial lift systems and methods of practicing the same are disclosed. The SGA of the present invention ameliorates some of the dangers associated with PMM's. Methods of shorting, grounding, testing and monitoring the electrical conductors of a permanent magnet motor in order to safely manipulate the conductors are also disclosed.

A safe grounding apparatus (SGA) for safely grounding or neutralizing the electrical conductors for permanent magnet motor (PMM) powered artificial lift systems and methods of practicing the same are disclosed. The SGA of the present invention ameliorates some of the dangers associated with PMM's. Methods of shorting, grounding, testing and monitoring the electrical conductors of a permanent magnet motor in order to safely manipulate the conductors are also disclosed.

A safe grounding apparatus (SGA) for safely grounding or neutralizing the electrical conductors for permanent magnet motor (PMM) powered artificial lift systems and methods of practicing the same are disclosed. The SGA of the present invention ameliorates some of the dangers associated with PMM's. Methods of shorting, grounding, testing and monitoring the electrical conductors of a permanent magnet motor in order to safely manipulate the conductors are also disclosed.

A grounding clamp for connecting a cable to an electrical ground includes first and second clamping elements, which tightly abut against one another in an assembled state so that the cable is clampable therebetween. A contact is arranged on the first clamping element to contact a conductive section of the cable in the assembled state. An opening extending through the clamping elements is configured such that a fastener is guidable therethrough and the grounding clamp is connectable to the ground using the fastener. Mutually complementary first and second locking means are also provided. The first locking means are arranged on two opposite sides of the first clamping element and the second locking means are arranged on two opposite sides of the second clamping element. In the assembled state, the locking means are engaged with one another and are arranged on both sides along the cable.

A grounding clamp for connecting a cable to an electrical ground includes first and second clamping elements, which tightly abut against one another in an assembled state so that the cable is clampable therebetween. A contact is arranged on the first clamping element to contact a conductive section of the cable in the assembled state. An opening extending through the clamping elements is configured such that a fastener is guidable therethrough and the grounding clamp is connectable to the ground using the fastener. Mutually complementary first and second locking means are also provided. The first locking means are arranged on two opposite sides of the first clamping element and the second locking means are arranged on two opposite sides of the second clamping element. In the assembled state, the locking means are engaged with one another and are arranged on both sides along the cable.