ITPD20120106A1 - STRUCTURE OF LED LAMP PERFECTED - Google Patents

Description

IMPROVED LED LAMP STRUCTURE

DESCRIPTION

The present invention relates to an improved LED lamp structure.

To date, tubular-shaped LED lamps are known and widespread, which now often replace the classic linear gas discharge lamps.

Tubular LED lamps are typically composed of a tubular body, transparent or semitransparent to allow the passage of light, inside which an electronic control board is inserted which powers a plurality of LEDs.

The electronic board is in turn powered at the ends of the lamp by means of standard connections for gas discharge lamps.

In fact, one of the main advantages of this type of lamps is that they can be easily mounted on the same lamp holders as the tubular gas discharge lamps, using the same couplings (such as the G13 attacks).

Therefore these lamps are often used by replacing gas discharge lamps and are also convenient thanks to a longer average life than the latter and reduced energy consumption.

However, it is also known that they emit a light beam with an emission angle of about 120 °, therefore relatively wide, and which cannot be concentrated in preferential directions.

To direct the light in the desired direction, metal or metallized reflectors are sometimes used outside the lamp, which, in addition to modifying the aesthetic linearity, return a light beam in a non-uniform way, affected by a strong light dispersion caused by reflections on the element reflector.

The object of the present invention is to propose a structure thanks to which to realize a lamp with reduced energy consumption compared to traditional gas-discharge lamps and which at the same time allows the light to be conveyed to the desired area.

Within the scope of this aim, an object of the invention is to propose a lamp structure capable of concentrating the light beam with a well-defined emission angle, avoiding the decomposition of the light.

Another object of the invention is to provide a lamp structure which concentrates the light beam along the entire length of the lamp.

This task, as well as these and other purposes which will appear better later, are achieved by an improved LED lamp structure, comprising a tubular body consisting of an extruded profile, substantially channel-shaped, and a transparent or semitransparent portion complementary to said extruded profile to complete said tubular body, on said extruded profile being distributed a plurality of LEDs powered by at least one electronic card and facing said transparent or semitransparent portion, said structure being characterized by the fact that it comprises optical means, placed inside said tubular body, for orienting and controlling the light beam of said LEDs.

Further characteristics and advantages of the invention will become clearer from the description of a preferred but not exclusive embodiment of the structure according to the invention, illustrated, by way of non-limiting example, in the accompanying drawings, in which:

Figure 1 illustrates the assembled structure according to the invention;

Figure 2 illustrates the structure according to the invention in a partially exploded perspective view;

- figure 3 is an enlargement of a cross section of the structure according to the invention.

With reference to the aforementioned figures, the LED lamp structure according to the invention is indicated as a whole with the reference number 10 and comprises a tubular body 11 closed at its ends by caps 12 carrying the lamp supply connections 13.

The tubular body 11 is constituted by an extruded profile 14, substantially channel-shaped, and by a transparent or semitransparent portion 15 complementary to the extruded profile 14 to complete the tubular body 11. On the extruded profile 14 are distributed a plurality of LEDs 16 powered by an electronic board 17 and facing the transparent or semitransparent portion 15.

The electronic board 17 is in turn powered by the connections 13 and suitably the extruded profile 14 has holes in which cable glands 18 are inserted for connection to the electronic board 17.

In the exploded view of figure 2 the electronic board 17 is shown protruding from the extruded profile 14, but it is inserted into it during the assembly of the lamp.

Advantageously, the structure 10 comprises optical means 19, located inside the tubular body 11, for orienting and controlling the light beam A of the LEDs 16.

The optical means 19 comprise a lens 20, with axial development and predefined curvature, intended to be crossed by the light beam A emitted by the LEDs 16, and longitudinal ribs 21 defined on the internal face of the transparent or semitransparent portion 15, or on the facing face towards the lens 20, which ribs 21 are intended to be crossed by the cone of light B exiting from the lens 20.

In particular, the ribs 21 have a substantially semicircular section and the lens 20 is substantially cylindrical of the plane-convex type with the curved surface 22 facing the transparent or semitransparent portion 15 and the flat surface 23 facing the LEDs 16.

In the example illustrated, the caps 12 are advantageously rotating and comprise a rotating part 12a and a fixed part 12b, the first of which is integral with the tubular body 11 and which rotates with it relative to the second.

The transparent or semitransparent portion 15 is preferably in transparent polycarbonate and the lens 20 is an extruded transparent polymethylmethacrylate (PMMA) and is supported along its entire length by the extruded profile 14.

The extruded profile 14, conveniently made of anodized aluminum, in fact has a support portion 24 for a ribbon with printed circuit 25 carrying the LEDs 16 and for the lens 20. The lens 20 is hooked to the support portion 24 by means of engagement 26 , which, as clearly visible from the section illustrated in Figure 3, comprise two shaped hooking appendages 27 extending from opposite sides of the lens 20 and which snap into two counter-shaped offshoots 28 projecting from opposite sides with respect to a central portion 29 of the portion support 24. The printed circuit strip 25 is instead substantially positioned resting on the central portion 29.

The structure 10 is also advantageously equipped with a heat dissipating layer 30, of the high efficiency double-sided adhesive type interposed between the central portion and the printed circuit tape 25 carrying the LEDs 16.

The operation of the structure, according to the invention, is as follows.

When the LEDs 16 are switched on, the light beam A emitted by them is channeled into a cone of light B by the lens 20, which, passing through the transparent or semitransparent portion 15, returns a light emission from the lamp according to a well-defined angle and avoiding that the lens breaks up the light into beams of different chromatic shades inside the cone formed.

It should be noted, in fact, that the ribs behave like microlenses, producing a sampling of the initial beam. Sampling produces numerous beams with a larger aperture than the initial one, allowing them to overlap, then redistribute the individual light components and then mix the colors.

In practice it has been found that the invention achieves the intended aim and objects by providing a LED lamp structure, therefore with reduced energy consumption compared to traditional gas discharge lamps, which allows the light to be concentrated in the desired area and in a uniform.

In fact, the lens determines the width of the light cone and the ribs clean the beam, eliminating parasitic smudges.

Another advantage of the structure according to the invention lies in the fact that the lens is interchangeable and is mounted with different gradation characteristics according to requirements.

Furthermore, the structure allows the creation of a LED lamp capable of concentrating the light along its entire length, by means of optical means integrated in it and without using external reflectors.

A further advantage of the structure according to the invention lies in the fact that the light can be further directed towards particular objects to be illuminated thanks to the use of the rotating caps, which allow the structure to be rotated. The invention thus conceived is susceptible of numerous modifications and variations, all of which are within the scope of the inventive concept; moreover, all the details can be replaced by other technically equivalent elements.

In practice, the materials employed, so long as compatible with the specific use, as well as the contingent shapes and dimensions, may be any according to the requirements and the state of the art.

Where the features and techniques mentioned in any claim are followed by reference marks, such marks have been affixed for the sole purpose of increasing the intelligibility of the claims and consequently such reference marks have no limiting effect on the interpretation of each element. identified by way of example by these reference signs.

Claims (11)

CLAIMS 1) Improved LED lamp structure (10), comprising a tubular body (11) consisting of an extruded profile (14), substantially channel-shaped, and a transparent or semi-transparent portion (15) complementary to said extruded profile (14) to complete said tubular body (11), on said extruded profile (14) being distributed a plurality of LEDs (16) powered by at least one electronic board (17) and facing said transparent or semitransparent portion (15), said structure (10 ) being characterized by the fact that it comprises optical means (19), placed inside said tubular body (11), for orienting and controlling the light beam (A) of said LEDs (16). 2) Structure, according to claim 1, characterized in that said optical means (19) comprise: - a lens (20) consisting of a transparent body with axial development and predefined curvature, intended to be crossed by the light beam (A) coming out of said LEDs (16), - longitudinal ribs (21) defined on the face of said transparent or semitransparent portion (15) facing said lens (20), said ribs (21) being intended to be crossed by the cone of light (B) coming out of said lens ( 20). 3) Structure according to claim 2, characterized in that said ribs (21) have a substantially semicircular section. 4) Structure, according to claim 2, characterized by the fact that said lens (20) is substantially cylindrical of the plane-convex type, with curved surface (22) facing said transparent or semi-transparent portion (15) and flat surface (23) facing said LEDs (16). 5) Structure, according to claim 1, characterized in that said tubular body (11) is closed at the ends by rotating plugs (12) and comprising a rotating part (12a) and a fixed part (12b), said rotating part ( 12a) being integral with said tubular body (11) and rotating with it relative to said fixed part (12b). 6) Structure, according to claim 1, characterized in that said extruded profile (14) has a support portion (24) for a printed circuit strip (25) carrying said LEDs (16) and for said lens (20). 7) Structure according to claims 2 and 6, characterized in that said lens (20) is hooked to said support portion (24) by means of engagement means (26). 8) Structure, according to claim 7, characterized by the fact that said engagement means (26) comprise two shaped hooking appendages (27) extending from opposite sides of said lens (20) and snap-engaging in two counter-shaped offshoots ( 28) projecting from opposite sides with respect to a central portion (29) of said support portion (24). 9) Structure according to claim 2, characterized in that said lens (20) is made of transparent polymethylmethacrylate (PMMA). 10) Structure according to claim 1, characterized in that said extruded profile (14) is made of anodized aluminum. 11) Structure according to claim 1, characterized in that said transparent or semi-transparent portion (15) is made of transparent polycarbonate.