An external docking station may be provided and may a filter manipulator that is arranged to (i) input without human intervention, a filter into a pool cleaning robot that exited a pool and is located in a filter replacement position and to (ii) assist without human intervention, in positioning the filter at a position in which the filter is at least partially disposed within a path formed between a first fluid opening and a second fluid opening of a housing of the pool cleaning robot thereby allowing the filter to apply a filtering operation when fluid passes through the fluid path.

A pool cleaner assembly includes a pool cleaner body supported for motion over an underwater pool surface, the pool cleaner body defining a water source connection and a suction opening on a lower surface thereof through which debris is removed from the underwater pool surface. The assembly further includes a steering device having a first steering device end configured for connection to a water hose and a second steering device end connected to the water source connection of the pool cleaner body, the steering device being operable to generate relative rotational motion between the first and second steering device ends.

Power supplies for pool and spa equipment are disclosed. In one embodiment, the power supply includes a buoyant housing, a peripheral float, at least one solar cell positioned on the buoyant housing for collecting sunlight and converting same to electrical energy, and a power cable for interconnecting the power supply and pool/spa equipment. In other embodiments, first and second inductive power couplings are provided for powering pool and spa equipment. The power couplings can also be installed using existing plumbing features of the pool or spa.

A pool cleaner water surface diverter 7 that will break the pool water surface 1 before the pool cleaner 4 reaches the surface, or at least before the suction of the cleaner 4 is able to suck in air. A rim 12 extends beyond a physical envelope of the cleaner, such as being wider than is the cleaner. Ideally the diverter has neutral or near neutral buoyancy in the pool water. A central hub on a pool hose 5 allows rotation of the diverter relative to the hose. compartments/containers may contain a substantially buoyancy neutral fluid or material in water e.g. PVA foam.

An underwater station that may include a filter manipulator that is arranged to input, without human intervention, a filter into a pool cleaning robot that is located in a filter replacement position and to assist, without human intervention, in positioning the filter at a filtering position in which the filter is at least partially disposed within a fluid path formed between a first fluid opening and a second fluid opening of the housing thereby allowing the filter to apply a filtering operation on fluid that passes through the fluid path.

Power supplies for pool and spa equipment are disclosed. In one embodiment, the power supply includes a buoyant housing, a peripheral float, at least one solar cell positioned on the buoyant housing for collecting sunlight and converting same to electrical energy, and a power cable for interconnecting the power supply and pool/spa equipment. In other embodiments, first and second inductive power couplings are provided for powering pool and spa equipment. The power couplings can also be installed using existing plumbing features of the pool or spa.

A method for charging and an underwater station that may include a platform and a first contactless charging element for charging a pool cleaning robot mounted on the platform; wherein when the underwater station is positioned in a pool the first contactless charging element is spaced apart from the bottom and sidewalls of the pool.

A docking station which can releasably engage and hold a robotic pool cleaner, the docking station optionally including a pre-filter for coarse debris, the pool cleaner including an internal filter and a pump to suction in, filter and eject filtered water while the pool cleaner is coupled to the docking station. The pool cleaner's pump creates water jets to provide propulsion for the pool cleaner and to aid in decoupling the pool cleaner from the docking station.

A pool cleaner including a turbine assembly, a timer assembly, and a scrubber assembly. The timer assembly is configured to rotate the turbine assembly in a first direction and a second direction. The scrubber assembly is configured to rotate in a forward direction when the turbine assembly rotates in the first direction, and to rotate in a rearward direction when the turbine assembly rotates in the second direction.

A method for charging a pool cleaning robot, the method may include positioning a first wireless charging element of a pool cleaning robot within a charging range of a second wireless charging element of a floating unit; wherein the floating unit is electrically and mechanically coupled to an external power source, wherein the positioning comprises moving at least one of the pool cleaning robot and the floating unit; and wirelessly charging, by the second wireless charging element, the first wireless charging element, wherein the charging occurs while maintaining the first wireless charging element within the charging range of the floating unit, despite movements of the floating unit.