A lamp (10) constructed as a hand lamp and for static use. The lamp includes a lamp housing (12), a light source in the lamp housing, a lamp mounting (14) for mounting the lamp in a desired position on a surface and a universal joint (24, 26) coupling the lamp housing and the mounting together, whereby the lamp housing is universally adjustable in attitude relative to the mounting.

A lamp (10) constructed as a hand lamp and for static use. The lamp includes a lamp housing (12), a light source in the lamp housing, a lamp mounting (14) for mounting the lamp in a desired position on a surface and a universal joint (24, 26) coupling the lamp housing and the mounting together, whereby the lamp housing is universally adjustable in attitude relative to the mounting.

A mobile emergency light device includes a casing (1), a moving closure cover (2), a translucent lens (3), an electronic circuit board (5) for control, and a combined reflector (4), in which the combined reflector (4) has an inverted bell shape and is open at both ends, in which the electronic circuit board is securely connected to the combined reflector (4), and provided with a plurality of light-emitting diodes (LED), suitably angled towards the combined reflector (4), and in which the casing (1) forms inside this a cylindrical cavity (13), whose interior houses an automatic switch, driven by the base of the casing approaching a ferromagnetic material.

An LED connection module comprises a plurality of LED connection units. Each of the LED connection unit comprises an LED pillar and a housing connected to the LED pillar. The LED pillar comprises a plug. The housing comprises an upper surface and at least one lateral surface. The housing comprising a socket. The socket is defined on the upper surface of the housing. The plug is matching with the shape of the socket to control a power-on mode and a power-off mode of the LED pillar by way of plugging and unplugging. The housing comprises at least one magnet. The at least one magnet is located inside the housing. The housings are attached to each other by interaction forces of the magnets.

An LED connection module comprises a plurality of LED connection units. Each of the LED connection unit comprises an LED pillar and a housing connected to the LED pillar. The LED pillar comprises a plug. The housing comprises an upper surface and at least one lateral surface. The housing comprising a socket. The socket is defined on the upper surface of the housing. The plug is matching with the shape of the socket to control a power-on mode and a power-off mode of the LED pillar by way of plugging and unplugging. The housing comprises at least one magnet. The at least one magnet is located inside the housing. The housings are attached to each other by interaction forces of the magnets.

The current invention applying super slim LED-unit(s) has built-in contactors has (a) magnetic only or (b) conductive magnetic-movable-kits so can attach or detachable metal magnetic-field reactive buss-strips. The conductive-movable type which also can deliver electric current from buss-strips of track light. The super slim LED light or units is a DC powered LED light has optics design become super thin and none bright-spots. The said LED-units install under the light-block material housing or parts, and light-beam go through at least of reflective surface at inner surface or walls. The said LED-unit install on hard or bendable circuit board with divider the compartment only has LED, lit-lens, reflective housing. The compartment is only space where light-beam traveling and has multiple times reflected and emit out from top lens. The said light beam emit out from LED-unit(s) reflected by high reflective surface or wall including (1) white high-polished plastic or (2) metalized mirror-like or (3) shining metal piece back-and-forth and light emit out from top lens. The current invention has multiple time reflective and refractive optic theory to make the super thin light for SMD LED(s) on hard or bendable PCB to get in-direct light beam. To get none bright-sports by not install LED(s) under face top lens. The Track LED light or LED-unit has slim features with different size can use as ceiling, closet, kitchen, laundry, door, garage, patio or anywhere for building, residence, house for indoor or outdoor use.

The current invention applying super slim LED-unit(s) has built-in contactors has (a) magnetic only or (b) conductive magnetic-movable-kits so can attach or detachable metal magnetic-field reactive buss-strips. The conductive-movable type which also can deliver electric current from buss-strips of track light. The super slim LED light or units is a DC powered LED light has optics design become super thin and none bright-spots. The said LED-units install under the light-block material housing or parts, and light-beam go through at least of reflective surface at inner surface or walls. The said LED-unit install on hard or bendable circuit board with divider the compartment only has LED, lit-lens, reflective housing. The compartment is only space where light-beam traveling and has multiple times reflected and emit out from top lens. The said light beam emit out from LED-unit(s) reflected by high reflective surface or wall including (1) white high-polished plastic or (2) metalized mirror-like or (3) shining metal piece back-and-forth and light emit out from top lens. The current invention has multiple time reflective and refractive optic theory to make the super thin light for SMD LED(s) on hard or bendable PCB to get in-direct light beam. To get none bright-sports by not install LED(s) under face top lens. The Track LED light or LED-unit has slim features with different size can use as ceiling, closet, kitchen, laundry, door, garage, patio or anywhere for building, residence, house for indoor or outdoor use.

A light fixture is disclosed. The light fixture includes: a mounting base, with a surface for interfacing with a wall; a fixture face plate; a decorative fixture element with a light socket; and a catch mechanism for securing the fixture face plate to the mounting base. The catch mechanism includes; at least one catch receiver, at least one catch aperture, and at least one catch insert. The mounting base is secured to a wall. The fixture face plate is secured to the mounting base when the at least one catch insert is inserted into the catch aperture and then rotated into the at least one catch receiver.

A light fixture is disclosed. The light fixture includes: a mounting base, with a surface for interfacing with a wall; a fixture face plate; a decorative fixture element with a light socket; and a catch mechanism for securing the fixture face plate to the mounting base. The catch mechanism includes; at least one catch receiver, at least one catch aperture, and at least one catch insert. The mounting base is secured to a wall. The fixture face plate is secured to the mounting base when the at least one catch insert is inserted into the catch aperture and then rotated into the at least one catch receiver.

A surface mount includes a base plate, set of magnets, and magnet retaining plate. Magnetic coupling between the magnets and the metallic base plate that has an area larger than the magnet area allows for accurate positioning of the object after installation via adjustments in horizontal, vertical, and angular position of the object. Marking pegs allow for trouble-free and easy marking of the mounting surface for installing the magnet retaining plate. Optional spacers provide flexibility for use with various mounted objects. Lighting and lighting control allow for visual effects associated with the surface mount.