BE1017128A3 - LUMINAIRE. - Google Patents

Abstract

The invention relates to a luminaire (1,2) comprising a cavity (10, 20) which is provided with two or more groups (A, A1, A2, A3, A4) of light sources (100) for illuminating one or more objects (200, 201,202,203) through an opening (11,21) in the luminaire (1,2), wherein each group (A, A1, A2, A3, A4) comprises at least one light source (100), and wherein the light sources ( A, A1, A2, A3, A4) are statically arranged in said hollow space (10,20), and wherein the light sources (100) are arranged inside said hollow space (10,20) in a substantially dome-shaped configuration.

Description

LUMINAIRE

The invention relates to a luminaire comprising a hollow space provided with two or more groups of light sources for illuminating one or more objects through an aperture in the luminaire, wherein each group comprises at least one light source, and wherein the light sources are static in said light source. hollow space.

To date, the light sources used in such fixtures are preferably light emitting diodes (LEDs).

With regard to such luminaires, for example, from US 2002136010 a system with diode light as a light source is known for illuminating a stage, or for providing a theatrical and architectural illumination. The system is then constructed from a number of separate flat panels on which a number of light-emitting diodes are mounted that emit a number of diode light beams to a common focusing area.

The problem with such a system is, on the one hand, that mechanical components are required to obtain different exposure angles for illuminating an area. On the other hand, the degrees of freedom of exposure with such a system are limited.

This problem of the mechanical components is partially solved in DE 101 29 972, in which a device is described which is provided with a number of light-emitting diodes as a light source, said light-emitting diodes being arranged side by side, for example in the form of a tube or a pipe for irradiating an object which is opposite to the surface formed by the light-emitting diodes. The surface has a concave curvature at least over a part of the circumference. Viewed in cross-section in one dimension, the curvature can be in the form of a semicircle and can extend perpendicular to the plane of the curvature in a tunnel shape.

However, here too the problem remains that the degrees of freedom of the exposure with such a device are too limited.

The object of the invention is to provide a luminaire according to the preamble of the first claim, wherein the lighting has the highest possible degree of freedom.

• i.

This object of the invention is solved by providing a luminaire comprising a cavity provided with two or more groups of light sources for illuminating one or more objects through an opening in the luminaire, each group comprising at least one light source, and wherein the light sources are statically arranged in said cavity, wherein the light sources are arranged inside said cavity in a substantially dome-shaped configuration.

In this way a luminaire is obtained with an illumination with a high number of degrees of freedom. This has the advantage that without the use of mechanical components with one or more different groups of light sources, one or more different objects can be irradiated simultaneously. This means that: v ° either one group of light sources, consisting of one or more light sources, , mf -.

be able to illuminate one object, so that different objects can be simultaneously illuminated by simultaneously applying different groups of light sources; one object can be illuminated with different groups of light sources. In addition, the groups of light sources can be in one fixture, or they can be in different fixtures.

In a preferred embodiment of one am according to the invention, the said substantially dome-shaped configuration of the light sources is obtained by providing a substantially cup-shaped structure which is composed of one or more elements to which the light sources are mounted.

In a first more preferred embodiment of a luminaire according to the invention, the substantially dome-shaped construction is formed by two or more interconnected elements to which the light sources are mounted.

More preferably, the substantially dome-shaped construction is thereby formed by two or more plates connected to each other to which the light sources are mounted.

In a second more preferred embodiment of a luminaire according to the invention, the substantially dome-shaped structure is built up from at least two elements, comprising a dome-shaped body which is provided with one or more perforations; at least one supporting element connected to said dome-shaped body, and on which the reflexes are attached,. -I - .j, ·! - so that the light from the light sources can pass through said perforations.

In an advantageous embodiment of an armature according to the invention, the dome-shaped configuration of the light sources is a substantially ball-cap-shaped configuration.

This has the advantage that the light from the light sources can better pass through the central point of the said opening in the luminaire.

In a preferred fixture according to the invention, the light sources are light-emitting diodes.

This has the advantage that, since light-emitting diodes are small light sources, a large number of these light-emitting diodes can be built into the luminaire.

In order to better focus or diffuse the radiated light, the light-emitting diodes are preferably provided with a lens.

In an advantageous embodiment of a luminaire according to the invention, the two or more groups of light sources are driven by one or more control modules that make the different controlled light sources light up.

In a more advantageous embodiment of a luminaire according to the invention, the control modules are checked by means of a computer.

In this way the control of the control modules is fast, simple and intelligent due to the small number of operative elements. In addition, different "light scenes" can be obtained, and can even be changed very quickly (even stroboscopically) from light scene.

The luminaire according to the invention can be a recessed luminaire that is installed in a ceiling and / or wall, or can be a surface-mounted luminaire that is directly or indirectly attached to a ceiling and / or wall. An example of an indirect attachment of a fixture to the ceiling is a pendant.

In order to further clarify the properties of this invention and to indicate additional advantages and details thereof, a more detailed description of two exemplary embodiments of a luminaire according to the invention now follows. It is clear that nothing in the following description can be interpreted as a limitation of the protection claimed in the claims for the luminaire according to the invention.

Furthermore, some of these embodiments are discussed in the attached figures, with reference numerals referring to these figures, wherein: figure 1 represents a cross-section of a first embodiment of a luminaire according to the invention; Figure 2 represents a bottom perspective view of a first exemplary embodiment of a fixture according to the invention; Figure 3 represents a bottom view of a first exemplary embodiment of a fixture according to the invention; Figure 4 represents a cross-section of a second exemplary embodiment of a fixture according to the invention; Figure 5 represents a bottom perspective view of a second exemplary embodiment of a fixture according to the invention; Figure 6 represents a bottom view of a second exemplary embodiment of a fixture according to the invention; figure 7 represents an arrangement in which four groups of LEDs, each occurring in a different luminaire, illuminate the same object; Figure 8 represents an arrangement in which three groups of LEDs, each occurring in the same fixture, illuminate a different object; Figure 9 represents an arrangement in which three groups of LEDs, each occurring in the same fixture, illuminate the same object.

A luminaire (1, 2) according to the invention (as proposed in Figures 1 to 6) comprises a hollow space (10, 20) which is provided with two or more groups of (Α, Α ^ ΑΑ) light sources ( 100): These groups (Α, ΑιΑ ^, Α ») light sources (100) are provided for illuminating one or more objects (200) through an opening (11,21) in the luminaire (1,2) (as is 7 to 9). Each group (A.Ai.Az.Aa.A ^ light sources (100) thereby comprises at least one light source (100), and is statically arranged in said hollow space (10,20). That is, the light sources (100) The light source element (! 100) within the said hollow space (10, 20) is arranged in a substantially dome-shaped configuration, whereby, as stated above, a luminaire (1,2) is obtained with an exposure with a high number of degrees of freedom, and wherein without the use of mechanical components with one or more different groups (A, Ai, A2, A3, A4) light sources (100) one or more Different objects (200) can be illuminated simultaneously This means that either, as shown in Figure 8, one group of light sources (A), consisting of one or more light sources (10Ö);, one object (200) can illuminate, causing further application of simultaneously different g call light sources (AiVA ^ Agf simultaneously different objects (201,202,203) can be irradiated; or, as represented in Figures 7 and 9, with different groups of light sources (AAAA) one object (200) can be irradiated. In addition, as shown in Figure 9, the groups of light sources AA, As) can be in one fixture (1,2), or, as shown in Figure 7, these light sources (Ai AAA) can be in different luminaires (1,2).

The dome-shaped configuration of the light sources (100) is preferably achieved by providing a substantially dome-shaped structure (12, 22) which is made up of one or more elements (13, 23, 25) to which the light sources (100) are mounted.

In the first exemplary embodiment, as represented in Figures 1 to 3, the substantially dome-shaped structure (12) is formed from two or more elements (13) connected to each other. These elements preferably consist of mutually connected plates (13) on which the light sources (100) are mounted. The plates (13) in the exemplary embodiment as represented in Figure 1 are designed as mutually connected flat T-shaped plates. However, the plates can also have any other shape.

In the second exemplary embodiment, as shown in Figures 4 to 6, the substantially dome-shaped structure is made up of at least two elements, comprising a substantially dome-shaped body (23) provided with one or more perforations (24); at least one support element (25) connected to said dome-shaped body (23) and to which said light sources (100) are mounted, so that the light from the light sources (100) can pass through said perforations (24).

In the exemplary embodiment of a luminaire (2) as represented in Figure 4, one light source (LED) (100) is provided per perforation (24). The LED (100) is arranged on a support element (25), and this support element (25) is connected via a cone (26) through the perforation (24) to the substantially dome-shaped body (23). However, there may also be a plurality of light sources (100) per support element (25), whereby the light from the plurality of light sources (100) passes through one perforation (24).

In the exemplary embodiment of a fixture (2) as represented in Figure 4, the support elements (25) are located at an equal distance from the perforations (24). However, the distance between a support element (25) and a perforation (24) can still be selected at random afterwards.

In the two exemplary embodiments of a luminaire (1, 2) as represented in Figs. 1 to 6, the substantially dome-shaped configuration is a substantially dome-shaped configuration, as a result of which, as already stated, the light coming from the light sources is better passed through the central point of the through said opening in the fixture (1,2).

The light sources (100) are preferably light-emitting diodes (LEDs). These light-emitting diodes are preferably provided with a lens (not shown in the figure) for focusing or diffusely spreading the emitted light.

The two or more groups of light sources (A, A ^ -A *) are controlled by one or more control modules that light up the different controlled light sources (100). These control modules control one or more switched, intelligent power modules that provide the light sources (LEDs) with the necessary power.

The control of the control modules is preferably done by means of a computer.

The luminaires (1,2) as represented in Figures 1 to 6 are luminaires (1,2) that can be used as recessed luminaires for a ceiling and / or wall. An opening is made in the ceiling and / or wall corresponding to the opening (11,21) of the luminaire (1,2). The toothed part (around the opening (11, 21) is filled in, so as not to be visible.

However, the luminaires can also be used as a surface-mounted luminaire that is mounted directly or indirectly, for example via a pendulum, to a ceiling and / or wall.

Claims (12)

Luminaire (1,2) comprising a cavity (10,20) provided with two or more groups (A, A1, A2, A3, A4) of light sources (100) for illuminating one or more objects ( 200,201,202,203) through an opening (11,21) in the luminaire (1,2), wherein each group (A, A1, A2, A3, A4) comprises at least one light source (100), and wherein the light sources (A, A1, A2, A3, A4) are statically arranged in said hollow space (10,20), characterized in that the light sources (100) are arranged inside said hollow space (10,20) in a substantially dome-shaped configuration. Luminaire as claimed in claim 1, characterized in that said substantially dome-shaped configuration of the light sources (100) is obtained by providing a substantially dome-shaped structure (12,22) which is composed of one or more elements (13,23, 25) to which the light sources (100) are mounted. Luminaire as claimed in claim 2, characterized in that the substantially dome-shaped construction (12) is formed by two or more elements (13) connected to each other to which the ifhous bricks (100) are attached. Luminaire according to claim 3, with the! characterized in that the substantially dome-shaped structure (12) is formed by two or more plates (13) connected to each other to which the light sources (10) are mounted. Luminaire according to claim 2, characterized in that the substantially dome-shaped structure (22) is composed of at least two elements, comprising a substantially dome-shaped body (23) which is provided with one or more perforations (24); at least one support element (25) is connected to said dome-shaped body (23) and to which said light sources (100) are mounted, so that the light from the light sources (100) can pass through said perforations (24). Luminaire according to one of the preceding claims, characterized in that the substantially dome-shaped configuration of the light sources (100) is a substantially dome-shaped configuration. Luminaire according to one of the preceding claims, characterized in that the light sources (100) are light-emitting diodes. Luminaire according to one of the preceding claims, characterized in that the light-emitting diodes (100) are provided with a lens for focusing or diffusingly diffusing the emitted light. Luminaire according to one of the preceding claims, characterized in that the two or more groups (Α, Α ^, Αϊ, ΑΟ light sources (100) are controlled by one or more control modules that illuminate the different controlled light sources (100). Luminaire according to claim 9, characterized in that the control modules are checked by means of a computer. Luminaire according to one of claims 1 to 10, characterized in that the luminaire (1,2) is a recessed luminaire that is installed in a ceiling and / or wall. Luminaire according to one of claims 1 to 10, characterized in that the luminaire (1,2) is a surface-mounted luminaire that is directly or indirectly attached to a ceiling and / or wall.