A spring contact includes: a main part (11); plural legs (12, 13) extending downward from two opposite sides of the main part; a resilient arm (14) extending upward from a rear end of the main part, the resilient arm having a contact portion; and a pair of supporting portions (15) extending from the two opposite sides of the main part and located in front of the resilient arm; wherein the supporting portions are separate from the resilient arm.

The invention relates to a power lead for a swimming pool cleaning robot. Said power lead comprises a rotary connector and a buoyancy means supporting said rotary connector. An upper part of said buoyancy means is a cap shaped to slide under a swimming pool cover, under the effect of a traction exerted by the swimming pool cleaning robot on the buoyancy means through the power lead.

Reduced-pair Ethernet patch cords include a twisted pair cable that has a pair of insulated conductors that are contained within a cable jacket. A connector is mounted on a first end of the cable. The connector includes a connector housing and a strain relief unit that is mounted on the cable at the interface between the cable and the connector housing. The strain relief unit includes a plurality of internal protrusions that contact the cable jacket.

A spring contact includes: a main part (11); plural legs (12, 13) extending downward from two opposite sides of the main part; a resilient arm (14) extending upward from a rear end of the main part, the resilient arm having a contact portion; and a pair of supporting portions (15) extending from the two opposite sides of the main part and located in front of the resilient arm; wherein the supporting portions are separate from the resilient arm.

Detailed is a device for guiding a cable for linking a submerged robot, in particular a robot for cleaning swimming pools, to the device for controlling and powering same, said guiding device including: a. a coupling including a rotary connector, connected by one side to a first floating portion of the linking cable extending from the control and power device to said coupling and, by the other side, to a second portion of the linking cable extending from said coupling to the submerged robot; b. a floating mounting including: b(i). a float; b(ii). an interface for mechanically linking the rotary connector to said float; and b(iii). a hood extending above the surface when the floating mounting is submerged in a liquid and removably connected to the float; c. in which the mechanical link between the float and the rotary coupling is a ball-and-socket link.

The invention relates to a power lead for a swimming pool cleaning robot. Said power lead comprises a rotary connector and a buoyancy means supporting said rotary connector. An upper part of said buoyancy means is a cap shaped to slide under a swimming pool cover, under the effect of a traction exerted by the swimming pool cleaning robot on the buoyancy means through the power lead.

A connector includes a first housing (50) supported on a first supporting surface (32A) in an inverter-side terminal block (30) in a floating manner and a second housing (60) supported on a second supporting surface (34A) in the inverter-side terminal block (30) in a floating manner. A first terminal (52) in the first housing (50) mates with an inverter-side terminal (82) in a direction orthogonal to the first supporting surface (32A). A second terminal (62) in the second housing (60) mates with a motor-side terminal (92) in a motor-side terminal block (40) in a direction orthogonal to the second supporting surface (34A). A braided wire (70) has one end connected to the first terminal (52) and another end connected to the second terminal (62) and is arranged slidably in directions along the first supporting surface (32A) and along the second supporting surface (34A).

A plug connector housing is provided having a cable through-opening with a substantially circular cross-section. The plug connector housing has a cable outlet piece, which substantially has the shape of an angled cylinder. The cable outlet piece is configured to be fastened to the cable through-opening of the plug connector housing and is mounted for rotation in a peripheral direction relative to the cable through-opening.