RU112336U1 - LED LAMP - Google Patents

Abstract

1. LED lamp, including a diffuser body, a cover, a printed circuit board with LEDs and an electronic control circuit for them, and a lens, characterized in that the inner active surface of the diffuser body contains at least one collimator lens in the form of a cone with a radius side wall and truncated at the base to a regular hexagon. ! 2. A light-emitting diode lamp according to claim 1, characterized in that at the top of the cone there is a cylindrical recess, at the bottom of which a convex spherical lens is formed. ! 3. A light-emitting diode lamp according to claim 1, characterized in that the outer side of the diffuser body is covered with a mesh of hexagonal convex lenses. ! 4. A light-emitting diode lamp according to claim 1, characterized in that the active surface of the diffuser body can have the shape of a rectangle, circle, triangle, hexagon.

Description

The utility model relates to LED lamps and can be used for signaling, drawing attention to the object on which they are installed (at small vessels, railway crossings, emergency traffic signs, traffic lights, etc.), as well as for lighting rooms and interior lighting .

The use of LEDs as a light source provides low power consumption, as well as small overall dimensions of the product, which makes LED lamps in demand on the modern market. In addition, one of the most important advantages of LED lamps is the ability to focus and direct the light flux in the desired direction. Manufacturers were able to achieve an increase in the power and directivity of LEDs, on the one hand, through the creation of more powerful LEDs, and on the other hand, through the use of special optics: the LEDs themselves are equipped with lenses and, in addition, the design of the lamps can have different scattering and focusing elements optics.

A LED lamp is known from the prior art (see RF patent No. 94310, published date 05/20/2010), including a metal base and one or more LED modules mounted on it, each of which is a thin-walled composite substrate having a base in the form metal plate. Light diodes are placed on the composite substrate. The components of each light diode, including the anode, cathode and crystal of the light diode are protected by a polymer mass. The polymer mass and / or shell are connected at the location of the diode with the substrate in such a way that they form an optical lens with predetermined optical characteristics. The known solution allows to provide moisture protection and efficiency of the device, however, it has low light transmission.

From the patent of the Russian Federation No. 102749 (published on March 10, 2011), an external and internal lighting device is known that contains a housing inside which an assembly of a heat-conducting strip, a printed circuit board with installed LEDs is installed, closed by a transparent panel with optical lenses, coaxial with the LEDs, all the assembly is sealed around the perimeter from the ends with a heat-conducting compound. The disadvantage of this lamp is the low contrast of the glow and the directivity of the light flux. This solution is the closest in purpose and technical essence to the proposed technical solution and is taken as a prototype.

The claimed utility model is aimed at solving the problem of creating an LED luminaire with a brighter and sharply directed luminous flux.

The technical result when using this utility model is to provide high contrast luminescence and the necessary radiation pattern.

The technical result is achieved through the use of a set of collimator lenses having a cone shape and truncated in the base to a regular hexagon on the inner active surface of the diffuser body of the LED lamp. At the top of the cone there is a cylindrical recess, at the bottom of which a convex spherical lens is formed, the outer surface of the diffuser body is covered with a grid of hexagonal convex lenses.

The utility model is illustrated by drawings, which are images of particular cases of the lamp and do not limit the other possible forms of its implementation.

In fig. 1 shows a General view of the lamp;

Fig. 2 is a view of the inside of the diffuser body with a set of collimator lenses;

Fig. 3 - rear view;

Fig. 4 - general view of the collimator lens;

Fig. 5 - embodiment of the lamp, General view;

Fig. 6 - embodiment of the lamp; diffuser housing with a set of collimator lenses.

The lamp includes a diffuser housing 1, cover 2, inside there is a printed circuit board with LEDs and an electronic circuit for controlling them (not shown in the figure). A distinctive feature of the claimed utility model is the use of collimator lenses 3, which fill the inner active surface of the diffuser body 1. The collimator lenses 3 have a conical shape, while the walls 4 have a radius surface. Walls 4 and base 5 are truncated to form a regular hexagon at the base. This design allows to increase the area of illumination of the active surface of the body-diffuser 1 and creates the most dense packaging on the principle of bee honeycombs (see Fig. 2). At the top of the cone there is a cylindrical recess 6, at the bottom of which a convex spherical lens 7 is formed. The outer side of the diffuser body 1 is covered with a continuous grid of hexagonal convex lenses 8.

The active surface of the diffuser housing 1 may be in the form of a rectangle, circle, triangle, hexagon, etc. The diffuser housing 1 is made of optically transparent plastic, for example polycarbonate. The color of the diffuser housing 1 and the use of LEDs of the required wavelength ensures the color of the light flux.

The device operates in a manner known to the skilled person: when the power source is turned on, the LEDs generate a luminous flux that passes through the collimator lenses, a grid of hexagonal convex lenses and acquires the specified optical characteristics.

The use of collimator lenses of the proposed design in an LED lamp allows the lamp to be illuminated with high contrast and to provide the necessary radiation pattern, and thus achieve the claimed technical result.

Claims (4)

1. LED lamp, comprising a diffuser housing, a cover, a printed circuit board with LEDs and an electronic circuit for controlling them, and lenses, characterized in that the inner active surface of the diffuser housing contains at least one collimator lens having a cone shape with a radius side wall and truncated at the base to a regular hexagon. 2. The LED lamp according to claim 1, characterized in that at the top of the cone there is a cylindrical recess, at the bottom of which a convex spherical lens is formed. 3. The LED lamp according to claim 1, characterized in that the outer side of the diffuser housing is covered with a grid of hexagonal convex lenses. 4. The LED lamp according to claim 1, characterized in that the active surface of the diffuser housing can be in the form of a rectangle, circle, triangle, hexagon.