SK50242012U1 - LED lamp with creating change in light intensity distribution in space - Google Patents

Abstract

LED lamp with creating changes in light intensity distribution is composed of a body (1) provided with at least one controlled lighting module (2) to produce changes in the distribution of light intensity in an area that consists of at least one LED light source (3) with symmetric reflector (4) and an LED light source (3), an asymmetrical reflector (5). Further comprises a receiving circuit (6) and remote / at least one control unit (7) to control power sources and / or from the power source (8), which are part of the controlled lighting module (2) to produce changes in the distribution of light intensity in space or installed by body (1). The body (1) is equipped with a lid (9) with first recesses (10) on the light output of symmetrical and asymmetrical reflectors (4.5).

Description

LED luminaire with creating a change of light intensity distribution in the space

Technical field

The technical solution generally relates to an LED luminaire with the creation of a change in the illumination intensity distribution in the space on-line by remote adjustment of the luminance curve of the controlled LED light sources. The technical solution generally falls within the lighting technology.

BACKGROUND OF THE INVENTION

In the state of the art, space lighting systems are generally known. surfaces either by individual light sources or by distributed light sources. Usually, the lighting of the interior is subject to constant requirements, which are met by the installation of individual light sources already in the construction of buildings or interior furnishing. This means that the permanently installed light source had no variability in the illumination of the work area or space. It was only possible to dim the illumination by dimming but equally throughout the room.

Until now, no lighting has been possible to change the position of the light spot on the desktop, for example, in a conference room.

Especially in the field of cultural events, for example when lighting a theater scene, the light spot can be changed on the surface or in the space by way of directing the reflectors in three axes or by shading these reflectors or controlled dimming of whole groups of reflectors.

A disadvantage of the lighting systems described above is that they are not suitable for lighting in particular in the interior of offices or homes.

The aforementioned drawbacks have prompted to propose such a method of creating a variation in the illumination intensity distribution in the space and a light module, where the desired effect would be achieved by simply constructing the luminaire. The result of this effort is an LED luminaire with a variation in the illumination intensity distribution in the space further described in this technical solution.

The essence of the technical solution i

The aforementioned drawbacks are substantially eliminated by the LED luminaire creating a variation of the illumination intensity distribution in the space according to the present invention, which consists of a body provided with at least one controlled light module for creating a variation of the illumination intensity distribution in the space consisting of at least one LED light source with symmetrical reflector and at least one LED light source with asymmetric reflector. The LED lamp further comprises remote control receiving circuits and / or at least one power supply control block and / or power supply. These function blocks may, in any combination, be part of a controlled light module to create a variation in the illumination intensity distribution in the space, or they are attached to the interior of the body. A radiator is also mounted in or on the body.

The LED body is fitted with a front cover with first recesses for light output from symmetrical and asymmetrical reflectors.

For some embodiments, the LED lamp body from the back is provided with second recesses for light output from additional uncontrolled LED lamps that serve to illuminate the ceiling.

The controlled light mode for creating a change in the illumination intensity distribution in the space has such a property that the light output from the reflectors as optical systems is influenced by controlling individual groups of LED light sources. By controlling individual groups of light sources different light outputs are obtained from groups of symmetrical and asymmetrical reflectors. The optical symmetrical reflector system creates a deep luminance curve. The optical array of asymmetric reflectors creates an asymmetric luminous intensity curve. The interaction of the deep luminous curves with the asymmetrical luminous curves changes the distribution of the illumination in the space and thus on the illuminated surface. The transition from a deep symmetrical luminance curve to an asymmetrical luminance curve can be smooth, stepped or precisely defined by the user. The luminance curve (LIDC) changes when the groups of LED light sources gradually dim.

An important role in this invention has a controlled light module which comprises at least one LED light source with a symmetrical reflector and at least one LED light source with an asymmetric reflector. The number of LED lamps with a symmetrical reflector and the number of lamps with an asymmetrical reflector depend on the type of luminaire and the requirements imposed on it, such as power consumption, size and shape of the illuminated area. For the implementation of luminaires where undesirable glare would occur by looking directly into the reflectors, LED light sources can be equipped with satin Gaussian diffusers.

In a light module for generating a change in the illumination intensity distribution in a space according to the invention, the at least one asymmetric reflector can be oriented with its asymmetric surface in the axis of the LED light arrangement and / or can be oriented perpendicular to the axis of the LED light arrangement. The variability of this arrangement is great because it allows one part of the asymmetric reflectors by its asymmetric surface to be oriented in the axis of the LED light arrangement and / or the other part of the asymmetric reflectors by its asymmetric surface to be oriented perpendicular to the axis of the LED light arrangement. The asymmetric reflector is a rectangular structure with four walls, where its first and second opposing asymmetric surfaces are formed into center-center circles with different radii. High variability is also permitted for the LED light source itself, which consists of at least one light emitting member. For the purposes of this invention, the light-emitting members used in the LED light source are all prior art LEDs, LED chips, LED-mipschips, and similar light-emitting members in all prior art constructions. Preferably, the LED light source comprises four light-emitting members. Such a quadruple can be fitted with two light-emitting members with a warm white color of light into one diagonal and two light-emitting members with a cold white color of light into a second diagonal. In this case, the light module comprises an arrangement of LED light sources which can be arranged in groups side by side and / or in groups one behind the other.

Advantages of the LED luminaire with the variation of the illumination intensity distribution in the space according to the present invention and the light module itself are that by controlling the intensity of the individual LED light sources and using a geometrically defined optical system, it achieves the desired luminous intensity distribution in the space mechanical manipulation with it.

BRIEF DESCRIPTION OF THE DRAWINGS

The LED luminaire with the variation of the illumination intensity distribution in the space will be illustrated in more detail by means of the figures, in which FIG. 1 shows an assembly of an LED luminaire with exploded components. In FIG. 2 shows an optical system for controlled LED light sources located at the central portion of the LED lamp body. In FIG. 3 shows a block diagram of an LED luminaire with symmetrical and asymmetric light sources. In FIG. 4 is a block diagram of an LED luminaire with symmetrical and asymmetric light sources and supplementary LED light sources.

It is to be understood that the various embodiments of the invention shown in the individual figures are presented for illustration and not as limitations of particular embodiments of the invention.

Examples of technical solution

Example 1

In this example of a particular embodiment, an optimum design of a ceiling LED lamp is described to produce a variation in the illumination intensity distribution in the space according to the technical solution shown in FIG. 1. The LED luminaire with adjustable luminance curve is suspended above the work plane where the visual task is performed. By adjusting the illumination intensity of the LED light sources in the optical parts, the user adjusts the position of the light trace on the working plane according to where he / she performs the most work task. The LED lamp consists of a body 1 provided with two controlled light modules 2 for generating a change in the illumination intensity distribution in the space located in the peripheral parts of the body J. Each controlled light module 2 consists of three LED light sources 3 with symmetrical reflectors 4 and three LED light sources 3 s. asymmetric reflectors 5. The LED lamp further comprises remote control receiving circuitry 6 and a power supply 8, a spinning block 7 for controlling the power sources 13 and the current sources 13 are part of a controlled light module 2 for generating a change in light intensity distribution in space as shown in FIG. 3. In the body 1 there is also a cooler (not shown) for cooling LED light sources 3. The body of the LED light is provided with a front cover 9 with first recesses 10 for light output from symmetrical and asymmetrical reflectors 4, 5. also includes a remote control LED light, which is basically a dimmer.

Example 2

In this example of a particular embodiment, another construction of a ceiling LED lamp is described to produce a variation in the illumination intensity distribution in the space according to the technical solution shown in FIG. 1. LED luminaire with adjustable luminance curve is suspended in the conference room. As you write your notes, the light spot is directed to the job only; on the conference table for the ideal visual well-being of the attendants. In the case of free discussion, a wide luminance curve will be set for better orientation of the occupants in the space. The LED lamp consists of a body 1 provided with two controlled light modules 2 for generating a change in the distribution of the illumination intensity in the space located in the peripheral parts of the body 7. Each controlled light module 2 consists of three LED light sources 3 with symmetrical reflectors 4 and three LED light sources 3 with asymmetrical reflectors 5. The LED lamp further comprises remote control receiving circuits 6 and a power switching source 8. Control block 7 for controlling current sources 13 and the current sources 13 themselves are not part of the controlled light module 2 to create a variation in the illumination intensity distribution in the space, but are separately mounted inside the LED body 1. A cooler (not shown) for cooling LED lamps 3 is also provided in the body 7. The LED body 1 is provided with a front cover 9 with first recesses 10 for light output from symmetrical and asymmetrical reflectors 4, 5. The LED body 1 is also provided from the rear. second recesses 11 for light output from additional uncontrolled LED light sources 12, which serve to illuminate the ceiling, as in the block diagram shown in FIG. 4th

In an alternative arrangement, the LED luminaire _f with an adjustable luminance curve is suspended in a public library. In the absence of a person under the LED light, the light provides general illumination of the library through a wide curve. When a person arrives for reading, the user sets a deep luminous intensity curve exactly to the place where he / she performs the visual task and increases the level of illumination to the ideal location. In this case, the controlled light module 2 can also be mounted in the center of the LED body 2 as shown in FIG. Second

The controlled light module 2 for generating a change in the illumination intensity distribution in the space consists of the most important part of the LED lamp. It changes the luminous intensity distribution in space by controlling the light intensity of individual or groups of LED light sources 3 with symmetrical and asymmetric reflectors 4, 5. Furthermore, changes in the luminous intensity curve are presented by controlling the light intensity of individual LED light sources 3 (shown in percent) dimming), where the geometrically defined optical system changes the light intensity distribution over space in the following exemplary variations.

100% LED light intensity in all optical parts

45 * 30 · 15 * 0

- CO-C180-C90-C270

20% intensity of LEP light sources in symmetrical part and 100%> intensity of LED asymmetrical light sources

45 '30' 15 * 0 * 15 '30' 45 '

- CO-C180 -C90-C270

Industrial usability

The LED luminaire with a change in the illumination intensity distribution in the space according to this technical solution represents a technology usable in lighting technology and especially in applications where the work task is performed in different positions.

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Claims (4)

PROTECTION REQUIREMENTS An LED luminaire with a variation in the illumination intensity distribution in a space, characterized in that it consists of a body (1) provided with at least one controlled light module (2) for generating a variation in the illumination intensity distribution in the space consisting of at least one LED light source (3) with a symmetrical reflector (4) and one LED light source (3) with an asymmetric reflector (5); and further comprising remote control receiving circuits (6) and / or at least one power supply control block (7) and / or a power supply (8) which are part of a controlled light module (2) for generating a change in intensity distribution in-room lighting or attached to the body (1). LED luminaire with a variation of the illumination intensity distribution in a space according to claim 1, characterized in that the body (1) is provided with a cover (9) with first recesses (10) for light output from symmetrical and asymmetrical reflectors (4, 5) . LED luminaire with a variation of the illumination intensity distribution in the space according to claims 1 to 2, characterized in that the body (1) is provided on the rear side with second recesses (11) for light output from additional uncontrolled LED light sources (12). LED luminaire with a variation of the illumination intensity distribution in the space according to claims 1 to 3, characterized in that a radiator is also located in or on the body (1).