The present disclosure relates to a submersible apparatus (1) for testing a submarine high voltage (HV) cable system. The apparatus (1) includes a cable termination (100) including an electrical insulator (101) and a shielding electrode (102) for the electrical connection with a cable end (201). The apparatus (1) additionally includes a cable bend restrictor (300) having a through channel (301), and a termination locking (400) in through communication with the cable bend restrictor (300) and the cable termination (100). According to another aspect, a method for testing a submarine high voltage (HV) cable apparatus using the above to testing apparatus (1) is additionally disclosed.

The present disclosure relates to a submersible apparatus (1) for testing a submarine high voltage (HV) cable system. The apparatus (1) includes a cable termination (100) including an electrical insulator (101) and a shielding electrode (102) for the electrical connection with a cable end (201). The apparatus (1) additionally includes a cable bend restrictor (300) having a through channel (301), and a termination locking (400) in through communication with the cable bend restrictor (300) and the cable termination (100). According to another aspect, a method for testing a submarine high voltage (HV) cable apparatus using the above to testing apparatus (1) is additionally disclosed.

A sealed structure (e.g., sealing module, sealing projection, etc.) transitions the direction of one or more cables passing through the structure. Sealant (e.g., a gel block) is disposed within the structure to seal one or more cables extending along a transition path within the sealed structure. Ducts and/or cables may be anchored to the sealed structure. The sealed structure may be mechanically secured to a closure at a selected rotational orientation.

An electric plug-in device, which is suitable for plugging into an electric receiving device, has an inner conductor and an insulating body that encloses the inner conductor. The plug-in device includes a retaining element which can be firmly connected indirectly, in particular with the help of a housing wall, or directly to the receiving device; a sliding element which can be moved axially along a longitudinal axis of the inner conductor relative to the retaining element and includes the internal conductor and the insulating body. When the plug-in device is plugged into the receiving device, the sliding element protrudes into a receiving portion of the receiving device. A spring device exerts an axially active spring force on the sliding element in the direction of the receiving device when the plug-in device is plugged into the receiving device.

A cover includes a first portion and a second portion. The first portion may include a first section and/or a second section. The second portion may include a first section and/or a second section. The first section of the first portion and the first section of the second portion may be rotatably connected to each other, and/or the first section of the first portion and the second section of the first portion may be rotatably connected to each other. The first section of the first portion and/or the first section of the second portion may be configured to rotate about a first axis. The first section of the first portion and/or the second section of the first portion may be configured to rotate about a second axis. The first axis may be substantially perpendicular to the second axis. The first section of the second portion may include a first latch and/or a second latch.

A cover includes a first portion and a second portion. The first portion may include a first section and/or a second section. The second portion may include a first section and/or a second section. The first section of the first portion and the first section of the second portion may be rotatably connected to each other, and/or the first section of the first portion and the second section of the first portion may be rotatably connected to each other. The first section of the first portion and/or the first section of the second portion may be configured to rotate about a first axis. The first section of the first portion and/or the second section of the first portion may be configured to rotate about a second axis. The first axis may be substantially perpendicular to the second axis. The first section of the second portion may include a first latch and/or a second latch.

A conductor shielding termination assembly can include a housing tube defining an inner diameter housing channel therethrough and having housing threads on an outer diameter thereof. The housing tube can be made of conductive material. The assembly can include a shoulder bushing configured to insert within the inner diameter housing channel of the housing tube. The shoulder bushing can define an inner diameter bushing channel sized to receive an unshielded portion of a conductor. The assembly can include a jam nut comprising a nut inner diameter channel sized to receive a shielded portion of the conductor and nut threads on an inner diameter thereof configured to mesh with the housing threads. The jam nut and housing tube can be configured to trap a shielding termination within the meshed housing threads and jam nut threads.

A conductor shielding termination assembly can include a housing tube defining an inner diameter housing channel therethrough and having housing threads on an outer diameter thereof. The housing tube can be made of conductive material. The assembly can include a shoulder bushing configured to insert within the inner diameter housing channel of the housing tube. The shoulder bushing can define an inner diameter bushing channel sized to receive an unshielded portion of a conductor. The assembly can include a jam nut comprising a nut inner diameter channel sized to receive a shielded portion of the conductor and nut threads on an inner diameter thereof configured to mesh with the housing threads. The jam nut and housing tube can be configured to trap a shielding termination within the meshed housing threads and jam nut threads.

A conductor shielding termination assembly can include a housing tube defining an inner diameter housing channel therethrough. The housing tube can be made of conductive material. The assembly can include a shoulder bushing configured to insert within the inner diameter housing channel of the housing tube. The shoulder bushing can define an inner diameter bushing channel sized to receive an unshielded portion of a conductor. The assembly can include a clamping assembly configured to clamp around the housing tube and/or the conductor to axially lock the housing tube and the conductor and to trap a shielding termination between the housing tube and the clamping assembly. The clamping assembly can form a clamping inner diameter channel sized to receive a shielded portion of the conductor.

A conductor shielding termination assembly can include a housing tube defining an inner diameter housing channel therethrough. The housing tube can be made of conductive material. The assembly can include a shoulder bushing configured to insert within the inner diameter housing channel of the housing tube. The shoulder bushing can define an inner diameter bushing channel sized to receive an unshielded portion of a conductor. The assembly can include a clamping assembly configured to clamp around the housing tube and/or the conductor to axially lock the housing tube and the conductor and to trap a shielding termination between the housing tube and the clamping assembly. The clamping assembly can form a clamping inner diameter channel sized to receive a shielded portion of the conductor.