RU159484U1 - LED LAMP - Google Patents

Abstract

1. The LED lamp, comprising a thin-walled metal casing, in the central part of which a recess with a flat bottom is made, a light-emitting element mounted on the bottom of the recess, an optical diffuser fixed on the casing with fasteners, and a power supply, characterized in that the power supply is installed in an additional a casing fixed inside a thin-walled metal casing, the bottom of which is located from the edge of the base of the casing at a distance sufficient to accommodate an additional casing of the power supply unit, the outer surface of the thin-walled metal case is outlined by a generating curve in the form of an arc of a circle moving along the guide curve in the form of a semi-ellipse, the optical diffuser is convex in shape, covering the body along the perimeter of the recess, and bosses are made on its inner side for fixing the optical diffuser at the bottom of the case fasteners. 2. The LED lamp according to claim 1, characterized in that the additional housing of the power supply is fixed to the housing by fasteners fastening the optical diffuser. 3. The LED lamp according to claim 1, characterized in that a rubber gasket is installed between the optical diffuser and the housing. 4. The LED lamp according to claim 1, characterized in that, at least on one side of the housing, slots are made forming a breakable cap. 5. The LED lamp according to claim 1, characterized in that the bosses of the optical diffuser rely on a light-emitting element.

Description

The utility model relates to the field of electrical engineering (lighting), namely, to devices for outdoor and indoor lighting. Designed for lighting basements, flights of stairs, platforms, elevators, corridors, entrances of apartment buildings, workshops, garages and other rooms of industrial and public buildings.

A known lamp (patent RU 109526, F21V 15/01, 2011) containing a metal casing, a light-emitting element and a diffuser, while the casing is made as a one-piece integral part in the form of a box closed around the perimeter by a protective casing, the outer walls of which are made sloping with a descending bias. The bottom of the box is displaced, relative to the lower edge of the protective casing, deep into the housing and is provided with holes for fasteners. A landing recess for installing the diffuser is made on the body. The protective casing is provided with grooves with holes for fasteners.

A known lamp (patent RU 91136, H05B 33/02, 2010), comprising a hollow body closed with a cover of translucent material, having a bottom part and side walls, a radiation source located in the housing, including at least one mounted on a printed circuit board Light-emitting diode. The housing is made of heat-conducting metal, and the printed circuit board is mounted on the inner surface of the bottom of the housing to ensure thermal contact with the housing in the specified area. The case has a plate shape with side walls bent outward and downward.

A well-known lamp (patent RU 91136, H05B 33/02, 2010), made in the form of a modular design of three components: the main module in the form of parts from a heat-conducting material made, for example, by stamping from a sheet blank or cast, an electrical light module, made in the form of an assembly unit, the electronic and light components of which are mounted on a single board, which in turn is attached to the main module by, for example, rivets or gluing. The protective-optical module in the form of a part from a high-impact optically transparent material, made, for example, by casting and fastened to the main module, for example, by gluing or screws. The luminaire can be supplemented with an additional separate module for the purpose of additional energy saving, containing sensors for reacting to the values of illumination and noise. The inner surface of the optical protection module is profiled for reflective and scattering functions.

Famous lamps have a number of disadvantages:

- no space is provided for installation (installation) of the power supply. If the power supply is supplied complete with a lamp, then this greatly complicates the installation of the product;

- there is no place for the entrance of an external cable for connecting the lamp, with such an installation, it is necessary to prepare a groove on the mounting surface for laying the cable under the lamp.

- insufficient degree of protection against dust and moisture, which leads to failure of the device where large particles of dust and high humidity are present in the air.

LED lamps used in everyday life and housing and communal services are characterized by the presence of power supplies that convert the 220 V network voltage to the low voltage necessary for the normal functioning of the LEDs. Typically, the power supply units of such luminaires are an elongated rectangular electronic board, placed in a heat-shrink sheath and mounted directly on the supply wire. If the lamp is installed improperly or of poor quality, the heat-shrink protective sheath can be easily damaged, which, when used in a humid or shaded room, as well as in the event of leaks, usually leads to lamp failure.

To eliminate these negative phenomena, a real useful model is proposed, the technical result of which is to expand the arsenal of technical means of LED lamps by creating a structure that has improved protection against moisture and dust, both of the entire lamp and the power supply, in particular.

The essence of the utility model is as follows. The LED lamp contains a thin-walled metal housing, in the central part of which a recess with a flat bottom is made. The power supply is located in an additional housing fixed inside the lamp housing, the bottom of which is located from the edge of the base of the lamp housing at a distance sufficient to accommodate the additional housing of the power supply. Placing the power supply in an additional housing allows you to protect the power supply from direct exposure to moisture and dust, and also prevents damage to its insulation during installation and operation, which also positively affects dust and moisture resistance.

A light emitting element is installed at the bottom of the recess, made, for example, in the form of an electronic board with one or more LEDs. An optical diffuser is located above the light-emitting element, which serves to form the radiation pattern and light intensity of the lamp. The optical diffuser is made convex in shape, covering the body along the perimeter of the recess.

The outer surface of the metal housing of the lamp is also made convex and its geometric shape is obtained by generating a curve in the form of an arc of a circle that moves along the guide curve in the form of a semi-ellipse. This embodiment of the lamp housing allows, on the one hand, to reliably and conveniently place a standard power supply inside it in the form of an elongated rectangular electronic board. On the other hand, the outer surface of the lamp housing together with the recess forms curvilinear ribs, which, together with the surface of the optical diffuser tightly covering them, form a kind of analogue of a gap or labyrinth seal, which prevents the penetration of moisture and dust into the lamp housing. In addition, curved ribs increase the rigidity of the housing, which allows you to increase its height to accommodate the power supply without increasing the metal structure due to the use of thinner material.

The optical diffuser is fixed with fasteners, such as screws or self-tapping screws, from the inside of the lamp housing at its bottom using bosses made on its inner side. This embodiment allows you to reliably tightly press the optical diffuser to the lamp housing to exclude, as noted earlier, the penetration of moisture and dust from the outside into the lamp housing.

The additional housing of the power supply can be fixed to the housing with fasteners securing the optical diffuser.

To completely eliminate moisture from the outside of the lamp, for example, under the influence of a directed jet of water under pressure, a rubber gasket can be installed between the optical diffuser and the housing.

Slots can be made in the metal housing of the lamp, forming a breakable plug, designed to organize, if necessary, openings for cable entry and / or exit, for example, during luminaire installation. This embodiment allows to simplify the installation and to avoid additional work when installing the lamp due to the exclusion of the ditching of the mounting surface.

In the particular case of the luminaire, the bosses of the optical diffuser can be fixed to the bottom of the housing through the light-emitting element, that is, in other words, can rely on the electronic printed circuit board of the light-emitting element. This embodiment allows to improve the fit of the printed circuit board to the housing and thereby increase the heat sink from the LEDs of the light-emitting element, which, in turn, increases the service life of the product.

For a better understanding of the essence of the proposed technical solution, the following is a description of a specific example of the utility model, which is not a restrictive example of the practical implementation of the LED lamp with reference to the drawings, which show the following:

In FIG. 1 shows a General view of the lamp.

In FIG. 2 shows a general view of the lamp housing.

In FIG. 3 shows a top view of the lamp.

In FIG. 4 shows a section AA in FIG. 3.

In FIG. 5 shows a view of the lamp from below.

In FIG. 6 shows a section BB in FIG. 5.

The luminaire has a thin-walled metal housing 1 (Fig. 1) with an optical diffuser 2. As discussed earlier, the outer surface of the housing 1 is convex, the geometric shape of which is obtained by generating a curve in the form of a circular arc, moved along the guide curve in the form of a semi-ellipse. The housing 1 has in the center a recess (Fig. 2) with a flat bottom 3. The upper edges of the recess together with the lateral outer surface form curved ribs 4 and 5, giving the housing 1 increased rigidity.

The luminaire itself is mounted on the mounting surface using holes 6, recesses 7 (Fig. 2) located on two sides of the housing 1.

Slots 8 are formed on the other two sides of the housing 1 (Fig. 3), forming a breakable plug 9. The plug 9 can be easily removed (broken out) with an improvised tool (for example, pliers or a screwdriver) when mounting the lamp when the wire is laid outside the ceiling or walls.

At the bottom 3 of the recess (Fig. 4), a light-emitting element of the lamp is installed, made in the form of a printed circuit board 10 with LEDs. The printed circuit board 10 is fixed to the bottom 3 of the recess of the housing 1 with screws or rivets 11.

The optical diffuser 2 is made convex in shape and is located (Fig. 4) above the printed circuit board 10 with LEDs. Along the perimeter 12 of the recess of the housing 1, the optical diffuser 2 covers the curved ribs 4 and 5. In these places, the inner surface of the diffuser 2 corresponds to the outer surface of the housing 1 and fits snugly against it. Due to the curved shape of the surfaces of the optical diffuser 2 and the housing 1, the gap between them is practically absent. The minimum clearance possible in some places has a considerable length and curvilinear shape, which completely eliminates the ingress of dust, as well as drops and splashes of water inside the case.

The optical diffuser 2 through the boss 13 made on the inner surface is mounted on the bottom 3 of the recess of the housing 1 using self-tapping screws 14 (Fig. 4).

A power supply unit (not shown) is located (Fig. 5) in an additional housing 15 fixed inside the housing 1 from the back of the bottom 3 of the recess of the lamp housing with the same screws 14 that attach the optical diffuser 2. The bottom 3 of the recess of the housing 1 is offset from the edge 16 ( Fig. 6) the base of the housing 1 at a distance h sufficient for the normal location of the additional housing 15.

Thus, the lamp as a whole and the power supply in particular are protected from moisture and dust, from the outside by an optical diffuser 2, and from the inside by an additional housing 15 of the power supply.

Claims (5)

1. The LED lamp, comprising a thin-walled metal casing, in the central part of which a recess with a flat bottom is made, a light-emitting element mounted on the bottom of the recess, an optical diffuser fixed on the casing with fasteners, and a power supply, characterized in that the power supply is installed in an additional a casing fixed inside a thin-walled metal casing, the bottom of which is located from the edge of the base of the casing at a distance sufficient to accommodate an additional casing of the power supply unit, the outer surface of the thin-walled metal case is outlined by a generatrix in the form of an arc of a circle moving along the guide curve in the form of a semi-ellipse, the optical diffuser is made convex in shape, covering the body along the perimeter of the recess, and bosses are made on its inner side for fixing the optical diffuser at the bottom of the case fasteners. 2. The LED lamp according to claim 1, characterized in that the additional housing of the power supply is fixed to the housing by fasteners fastening the optical diffuser. 3. The LED lamp according to claim 1, characterized in that a rubber gasket is installed between the optical diffuser and the housing. 4. The LED lamp according to claim 1, characterized in that, at least on one side of the housing, slots are made forming a breakable plug. 5. The LED lamp according to claim 1, characterized in that the bosses of the optical diffuser rely on a light-emitting element.

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