RU169380U1 - LED LAMP - Google Patents

Abstract

The utility model relates to lighting devices and can be used primarily for temporary illumination of the surfaces of metal products and areas near them. The essence of the utility model: the LED lamp contains a diffuser, made in the form of a tube of cylindrical shape with a board placed inside it with LED modules mounted on it, configured to supply voltage to them, a lower end cover, hermetically installed at the lower end of the LED lamp and equipped with a pressure seal for the power cable of the LED modules, and the upper end cover, hermetically mounted at the upper end of the LED lamp and equipped with a magnet To enable the LED lamp retention on the surface of the metal surfaces. In the utility model, the required technical result is achieved, which consists in expanding the scope. 6 C.p. f-ls, 2 ill.

Description

The utility model relates to lighting devices and can be used primarily for temporary illumination of the surfaces of metal products and areas near them.

A device is known [RU 87597 U1, H05B 37/00, 10/10/2009], containing two plug-in modules electrically connected to each other, while one of the plug-in modules contains a housing made in the form of a hollow box with a removable perforated lid, placed inside it a circuit board, LEDs and a voltage converter, and a sleeve rigidly connected to one of the ends of the housing and communicating with the internal cavity of the housing through the through hole in the specified end, and the second module consists of a dielectric adapter and a base, moreover, the outer diameter of the adapter corresponds to the inner diameter of the sleeve with the possibility of connecting these modules by installing the adapter inside the sleeve.

The disadvantage of this device is the relatively large complexity due to the presence of two plug-in modules.

A luminaire is also known [RU 92714 U1, F21S 13/10, 03/27/2010], which consists of an LED module that includes a horizontally elongated monolithic support that acts as a luminaire body and has a heat-dissipating longitudinal finning on the outer surface and the LED panel located on its front placed behind a light-transmitting protective screen that also functions as a diffuser, an electric cable connecting the LED module to the power source through connecting elements on a monolithic support, the base a hollow holder consisting of a tube-shaped body with a closed end on one side and an open end on the other for mounting on a lamppost, a connecting element between a basic mounting holder and an LED module, the connecting element being made in the form of two horizontally elongated rigidly connected and located one under the other boxes of the shape of parallelepipeds, in which an electric cable is laid, tightly in contact with their horizontal surfaces, the upper box is the bottom, the lower box is the top throughout the length of the upper box, while the height of the upper box exceeds the height of the bottom, and the length of the top box is less than the length of the bottom and equal to the length of the base mounting holder with which the top box is made in a common housing.

The disadvantage of this device is also relatively large complexity.

In addition, a luminaire is known [RU 87598 U1, H05K 5/00, 10.10.2009], comprising a housing with a window of translucent material and single LEDs placed on the rear wall of the housing, the LEDs being evenly distributed over the entire area of the rear wall of the housing and mounted on printed boards with an aluminum base, fixed in the case with fasteners, while the perimeter of the rear wall is equivalent to the perimeter of the window, the case is made in the form of a rectangular flat figure with the possibility of installing in the cells of the suspended ceiling.

This device is also relatively sophisticated.

The lamp [RU 93005 U1, H05K 5/00, 04/10/2010] includes a housing made in the form of a parallelepiped with front and rear walls; LEDs mounted on printed circuit boards with an aluminum base fixed in case, the case is made with the possibility of installing a suspended ceiling in the cells, while the LEDs are placed in triads and rows, and the number of triads and rows is selected based on the size of the case, rectangular holes are made in the front wall of the case, corresponding to each triad, between the rows of triads of LEDs dividing longitudinal reflective elements are installed.

This technical solution also has a relatively high complexity.

Analogues of the claimed device include a lamp on light-emitting diodes [RU 62445 U1, H21S 13/00, 04/10/2007], comprising a housing in which a radiator is placed with a convex base surface formed by a set of at least three faces connected in series to each other, on which the LEDs are placed, and a reflector, the functions of which are performed by the inner surface of the housing.

The disadvantage of this device is the poor use of the possibility of expanding the light flux limited by the vertical walls of the reflector housing.

Another analogue of the proposed luminaire is a well-known technical solution [RU 144430, F21S 2/00, 08/20/2014], containing a flask with grooves on the inner surface for mounting the reflector, a reflector with latches on the upper surface for mounting with a bulb, an LED chip on a ceramic substrate on an intermediate metal heat sink, a driver, a plastic radiator equipped with plates with holes in the lower part of the radiator for mounting with a housing, a housing with grooves for mounting the radiator and a base, the intermediate the heat carrier with a chip on a ceramic substrate is equipped with two curved metal plates that are electrical contacts and inserted into the connectors that the driver is placed in the inner metal core of the radiator, the surface of the reflector is equipped with latches on the lower surface, which are inserted into the holes located on the upper plane radiator.

The disadvantage of this device is the poor use of the possibility of expanding the luminous flux.

Similar technical solutions include a lamp [RU 144318, F21V 8/00, 08/20/2014], comprising a housing, a bulb, a flexible printed circuit board with LEDs, a power supply and a base, the housing being made of heat-conducting material and having a channel formed by projections of the housing, moreover, a flexible printed circuit board with LEDs is attached at the bottom of the channel, while the entire space between the bulb, the housing and the printed circuit board with LEDs is filled with a transparent material with thermal conductivity higher than the thermal conductivity of air, while the surface of the bulb with the possibility of emitting light and heat.

The disadvantage of this device is the poor use of the possibility of expanding the luminous flux.

In addition to the above, a luminaire is known [RU 2516228, C2, F21S 6/00, 05.20.2014] containing an LED module made in the form of a base with LEDs mounted on it, a diffuser having the shape of a part of a spherical body, a housing having the shape of a body of revolution with a radiator with longitudinal ribs located inside it, a power supply unit connected to the LED module as well as a base, the housing being made of dielectric plastic with an additional cavity in the center and with longitudinal ribs and alternating windows between them on the side rhnosti, and with a gap between the longitudinal ribs and the additional cavity, which accommodates the radiator with longitudinal ribs, counter ribs windows longitudinal housing and the power supply is installed in the additional cavity of the housing.

The disadvantage of the closest technical solution is the relatively low lighting efficiency due to the relatively small angle of radiation scattering, which does not exceed 180 °, as well as the relatively low reliability caused by the large thermal load on the elements of the device.

The closest in technical essence to the proposed one is a LED lamp [RU 152462, U1, F21S 13/00, 05/27/2015], comprising an LED module with a base, LEDs and a diffuser, a radiator, a housing having the shape of the surface of a body of revolution, and also located inside the housing is a power supply, the output terminals of which are connected to the input terminals of the LED module, and a base fixed to the bottom of the housing, the output terminals of which are connected to the input terminals of the power supply, the LED module additionally containing it installation element for mounting inside the case above the base of a vertically elongated radiator, made hollow, with ribbing on the inner surface and with vertically elongated rectangular platforms on the outer surface, on which are fixed vertical boards with LEDs on the outside, and the diffuser is made in the form of cylindrical tubes with longitudinal cuts, each of which is designed to cover the corresponding vertical plate, while the lower parts of the tubes are cylindrical in shape CREPLA in the lower fastening element installed in the upper housing part and the upper part of the fixed upper fixing element mounted in their upper part.

A feature of this device is that the number of vertical boards with LEDs on the outside is equal to either three or five, vertically elongated rectangular platforms on the outer surface of the radiator are arranged uniformly in a circle, and the walls of the radiator between vertically elongated rectangular platforms are made concave towards the vertical axis of the radiator .

The disadvantages of the closest technical solution are the relatively large complexity and relatively narrow scope, since it can only be used in rooms equipped with basement connectors. This narrows the scope of its use and virtually eliminates the possibility of using surfaces for temporary illumination, for example, bodies of surface and underwater vehicles, internal surfaces of tanks, etc., including in the aquatic environment.

The problem that is solved in the proposed utility model is to simplify the design of the LED lamp and to provide the possibility of its use for temporary illumination of unequipped metal structures, for example, bodies of surface and underwater vehicles, the inner surfaces of tanks, etc. including in the aquatic environment.

The required technical result is to expand the scope.

The problem is solved, and the required technical result is achieved by the fact that in the LED lamp containing the diffuser, made in the form of a tube of cylindrical shape with a board placed inside it with LED modules mounted on it, configured to supply voltage to them, while the lower an end cap sealed at the lower end of the LED lamp and equipped with a cable gland for the power supply of the LED modules, and an upper end cap, sealed mounted at the upper end of the LED luminaire and equipped with a magnet to ensure that the LED luminaire can be held on metal surfaces.

In addition, the required technical result is achieved in that the board with LED modules mounted on it is made in the form of a plate along the width of the internal diameter of the diffuser.

In addition, the required technical result is achieved in that the board with LED modules mounted on it is made in the form of a corner along the width of the internal space of the diffuser.

In addition, the desired technical result is achieved in that the magnet is made in the form of a cylindrical protrusion from the upper end cover.

In addition, the required technical result is achieved by the fact that the diffuser is made of polycarbonate.

In addition, the required technical result is achieved by the fact that the magnet is equipped with a hook.

In addition, the desired technical result is achieved by the fact that the upper end cover is equipped with a hook.

The drawing shows:

in FIG. 1 - LED lamp, general view;

in FIG. 2 - LED lamp, assembly circuit.

The drawing shows: 1 - diffuser, 2 - upper end cover, 3 - circuit board with LED modules mounted on it, 4 - magnet, 5 - pressure seal, 6 - power cable, 7 - lower end cover.

The LED lamp comprises a diffuser 1, made in the form of a tube of cylindrical shape with a board 3 placed inside it with LED modules mounted on it, configured to supply voltage to them.

In addition, the LED lamp contains a lower end cap 7, hermetically mounted at the lower end of the LED lamp and equipped with a cable gland 5 for the power cable of the LED modules, and an upper end cap 2, hermetically installed at the upper end of the LED lamp and equipped with a magnet 4 to allow holding the LED lamp on metal surfaces.

A feature of the proposed LED lamp is that the board 3 with the LED modules mounted on it can be made either predominantly in the form of a plate along the width of the internal diameter of the diffuser 1, or in the form of an angle along the width of the internal space of the diffuser 1. The magnet 4 can be made in the form of a cylindrical protrusions from the upper end cover 2, and the diffuser 1 can be made of polycarbonate.

The magnet 4 or the upper end cap 2 itself can be equipped with a hook (not shown in the drawing) for holding on small protrusions or thin non-metallic objects or for more reliable fastening.

LED lamp is used as follows.

It can be used mainly for temporary illumination of the surfaces of metal products and areas near them, in inaccessible places, under water, etc.

In use, it is attached with a magnet 4 to the metal surface and / or additionally with a hook. Due to its tightness, it can be used under water.

In the proposed utility model, the required technical result is achieved, since the proposed device is much simpler than the known one and has a wider field of application, since it is possible to use it for temporary illumination of unequipped metal structures, for example, bodies of surface and underwater vehicles, internal surfaces of tanks, etc. , including in the aquatic environment.

Claims (7)

1. The LED lamp containing a diffuser, made in the form of a tube of cylindrical shape with a board placed inside it with LED modules mounted on it, configured to supply voltage to them, while the lower end cap is hermetically installed at the lower end of the LED lamp and equipped with a cable gland for the power supply cable of the LED modules, and an upper end cover hermetically mounted at the upper end of the LED lamp and equipped with a magnet for especheniya possibility of retaining the LED lamp on metal surfaces. 2. The LED lamp according to claim 1, characterized in that the board with LED modules mounted on it is made in the form of a plate along the width of the internal diameter of the diffuser. 3. The LED lamp according to claim 1, characterized in that the board with LED modules mounted on it is made in the form of a corner along the width of the internal space of the diffuser. 4. The LED lamp according to claim 1, characterized in that the magnet is made in the form of a cylindrical protrusion from the upper end cover. 5. The LED lamp according to claim 1, characterized in that the diffuser is made of polycarbonate. 6. The LED lamp according to claim 1, characterized in that the magnet is equipped with a hook. 7. The LED lamp according to claim 1, characterized in that the upper end cover is equipped with a hook.

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