A lighting unit 18 usable in a conventional electrical conduit system. The unit 18 comprising a plastics material body 20 extendible between two houses 14. The body 20 has a rectangular channel 22 which mounts an elongate lighting member 26 comprising a plurality of interconnecting LEDs 28 mounted on a tape 29.

A lighting unit 18 usable in a conventional electrical conduit system. The unit 18 comprising a plastics material body 20 extendible between two houses 14. The body 20 has a rectangular channel 22 which mounts an elongate lighting member 26 comprising a plurality of interconnecting LEDs 28 mounted on a tape 29.

An illumination device includes a spool body, a rope light selectively wrapped around the spool body, and a power source disposed with the spool body and electrically coupled to the rope light such that the power source causes the rope light to emit light.

An illumination device includes a spool body, a rope light selectively wrapped around the spool body, and a power source disposed with the spool body and electrically coupled to the rope light such that the power source causes the rope light to emit light.

A flexible lighting device includes a flexible transparent body that extends along a length direction of the lighting device, the flexible transparent body comprising particles dispersed therein. The flexible light device also includes a flexible substrate, embedded in the flexible transparent body, and extending along a length direction of the lighting device. The flexible substrate separates the flexible transparent body into a first portion that has a first concentration of the particles and a second portion that has a second concentration of the particles. The first concentration may be different than the second concentration, and the first surface of the flexible substrate may face the first portion and a second surface of the flexible substrate may face the second portion. At least two light emitting elements may be arranged on the first surface of the flexible substrate along the length direction of the lighting device.

A flexible lighting device includes a flexible transparent body that extends along a length direction of the lighting device, the flexible transparent body comprising particles dispersed therein. The flexible light device also includes a flexible substrate, embedded in the flexible transparent body, and extending along a length direction of the lighting device. The flexible substrate separates the flexible transparent body into a first portion that has a first concentration of the particles and a second portion that has a second concentration of the particles. The first concentration may be different than the second concentration, and the first surface of the flexible substrate may face the first portion and a second surface of the flexible substrate may face the second portion. At least two light emitting elements may be arranged on the first surface of the flexible substrate along the length direction of the lighting device.

A disinfecting catheter includes an elongated body having a plurality of lumens. The elongated body includes an insertion end having one or more openings in a sidewall, and a second end is a multifurcated end. A retaining balloon is arranged around an outer portion of the insertion end of the elongated body. An electrode is arranged at least partially within the multifurcated end of the elongated body. A plurality of ultraviolet (UV) light emitting diodes are arranged along the elongated body and connected to the electrode. A UV light controller controls the intensity and duration of the UV light output by the UV light emitting diodes. The UV light controller can receive commands from a smartphone to operate/adjust the UV light emitting diodes.

A disinfecting catheter includes an elongated body having a plurality of lumens. The elongated body includes an insertion end having one or more openings in a sidewall, and a second end is a multifurcated end. A retaining balloon is arranged around an outer portion of the insertion end of the elongated body. An electrode is arranged at least partially within the multifurcated end of the elongated body. A plurality of ultraviolet (UV) light emitting diodes are arranged along the elongated body and connected to the electrode. A UV light controller controls the intensity and duration of the UV light output by the UV light emitting diodes. The UV light controller can receive commands from a smartphone to operate/adjust the UV light emitting diodes.

The present application relates to the technical field of lighting fixtures, and more specifically to a wire-luminous marquee string, which includes a plurality of bulbs electrically connected in sequence, wherein a main wire is connected between adjacent ones of the bulbs, the main wire includes more than two electric cores tied in bundles, and a plurality of LED lamp beads are evenly distributed on the electric cores along a length direction of the electric cores; an electric input end of the bulb is connected to a solar energy storage panel, an electric adapter that can be connected to a power grid, or a mobile power supply, respectively; and the bulb includes a T-shaped connecting end covering the main wire, adjacent ones of the bulbs are connected to the main wire through the T-shaped connecting end, and the T-shaped connecting end is provided with a hook. The present application can reduce the superposed use of a plurality of lamp strings during use, and has the advantages of reducing wires and lowering costs.

The present application relates to the technical field of lighting fixtures, and more specifically to a wire-luminous marquee string, which includes a plurality of bulbs electrically connected in sequence, wherein a main wire is connected between adjacent ones of the bulbs, the main wire includes more than two electric cores tied in bundles, and a plurality of LED lamp beads are evenly distributed on the electric cores along a length direction of the electric cores; an electric input end of the bulb is connected to a solar energy storage panel, an electric adapter that can be connected to a power grid, or a mobile power supply, respectively; and the bulb includes a T-shaped connecting end covering the main wire, adjacent ones of the bulbs are connected to the main wire through the T-shaped connecting end, and the T-shaped connecting end is provided with a hook. The present application can reduce the superposed use of a plurality of lamp strings during use, and has the advantages of reducing wires and lowering costs.