An underwater directional light is provided. The directional light includes a lamp assembly, a tube assembly, and a printed circuit board assembly. The lamp assembly includes a housing and a lamp having a plurality of lighting elements. The tube assembly is coupled to the lamp and has a hollow interior. The printed circuit board assembly is mechanically coupled to the tube assembly and electrically coupled to the lamp.

Plastic grid or framework arrangements are used to support and position of bowls that hold flower arrangements, candles, letters, and other decorative elements. These grids are deployable in water fountains, indoor and outdoor pools, and other small bodies of water during festive occasions or for longer term decorative display. The grid themselves do not float, and are positioned below the surface of the water, and thus are not readily visible. Buoyancy is provided at the hubs that form nodes in the grids. The hubs also support floating bowls containing various decorative elements. The resulting effect is that the various decorative elements appear to be floating on the surface while the sub-surface grid structure maintains their relative positioning, keeping the bowls from clumping together at the edges or in the corners of the pool or fountain.

A light controller for pool lighting systems is detailed herein. The light controller can include a switch mechanism for controlling light settings of a lighting device. Switch positions of the switch mechanism can each correspond to a different light program. When a switch is positioned at one of the switch positions, the light controller can display one or more corresponding light settings of the light program corresponding to the switch position. A user may select a light setting for the pool lighting systems based on the displayed light settings. In response to the light setting being selected, the lighting device can cause the pool lighting systems to output the selected light setting of the light program.

Plastic grid or framework arrangements are used to support and position of bowls that hold flower arrangements, candles, letters, and other decorative elements. These grids are deployable in water fountains, indoor and outdoor pools, and other small bodies of water during festive occasions or for longer term decorative display. The grid themselves do not float, and are positioned below the surface of the water, and thus are not readily visible. Buoyancy is provided at the hubs that form nodes in the grids. The hubs also support floating bowls containing various decorative elements. The resulting effect is that the various decorative elements appear to be floating on the surface while the sub-surface grid structure maintains their relative positioning, keeping the bowls from clumping together at the edges or in the corners of the pool or fountain.

This disclosure relates generally to induction systems for wirelessly transmitting electricity. Specifically, embodiments of the present disclosure relate to methods and systems for wirelessly transmitting electricity to a light incorporated within, for example, a spa. In some embodiments, the systems include at least one pair of induction coils (e.g., receiving and transmitting coils) incorporated into a selectively removable spa seatback. The at least one pair of induction coils can be used to wirelessly transmit electricity to a light disposed within the selectively removable spa seatback. In some embodiments, a converter is incorporated into the system to adjust at least one characteristic of the light, such as brightness, color, and/or a lighting pattern.

An underwater directional light is provided. The directional light includes a lamp assembly, a tube assembly, and a printed circuit board assembly. The lamp assembly includes a housing and a lamp having a plurality of lighting elements. The tube assembly is coupled to the lamp and has a hollow interior. The printed circuit board assembly is mechanically coupled to the tube assembly and electrically coupled to the lamp.

An underwater directional light is provided. The directional light includes a lamp assembly, a tube assembly, and a printed circuit board assembly. The lamp assembly includes a housing and a lamp having a plurality of lighting elements. The tube assembly is coupled to the lamp and has a hollow interior. The printed circuit board assembly is mechanically coupled to the tube assembly and electrically coupled to the lamp.

An underwater lamp with improved light distribution for underwater applications. The underwater lamp includes a circuit trace having non-coplanar circuit segments, LEDs mounted on the non-coplanar circuit segments so as to emit light in nonparallel directions, and a lens. The lens includes lens portions aligned with the LEDs on the circuit trace circuit segments. The lens may be a thermoplastic material encapsulating the LEDs and the circuit trace.

Mounting apparatus for mounting an underwater light to a surface of a pool of water, comprising a mounting plate having a plurality of spaced-apart mounting apertures each shaped to receive a mounting fastener to mount an underwater light assembly to the mounting plate, and a plurality of connector apertures each shaped to receive a connector fastener. The mounting apparatus may also comprise a C-shaped bracket having a jet aperture shaped to receive a return jet conduit therethrough, the return jet bracket configured to be secured to the mounting plate. The mounting apparatus may also comprise an expandable width wedge assembly configured to allow the mounting apparatus to be wedged in an underwater niche. The mounting apparatus may also comprise an adjustable angle base assembly to be secured to an underwater surface, the adjustable angle base assembly secured to the mounting plate and configured to angle the mounting plate at a desired angle relative to the underwater surface.

A niche for a pool or spa light includes a back wall having an aperture for a power cable, a side wall, a plurality of mounting ribs, and means for receiving a locking mechanism of a pool or a spa light for locking the pool or spa light in position with respect to the niche. In another embodiment, a niche for a pool or spa light includes a body and a rotatable hub with a plurality of mounting ribs for attaching a pool or spa light to the hub. The body includes a back wall having a power cable aperture and a threaded aperture for receiving a screw, and a side wall. The hub includes a back wall having an aperture for receiving the screw and a plurality of mounting ribs, the hub being rotatable about the screw.