Illumination device

Abstract

An illumination device includes two illumination sections. The first illumination section includes a plurality of illumination elements that are each configured to emit light in a light spectrum, wherein the light spectrum is variable. The second illumination section includes one or several illumination elements that are each configured to emit light in a fixed light spectrum, wherein the fixed light spectrum is white.

Claims

1. An illumination device, comprising: a first illumination section comprising a plurality of illumination elements that are each configured to emit light in a light spectrum, wherein the light spectrum is variable; a second illumination section comprising one or several LED elements that are each configured to emit light in a fixed light spectrum, wherein the fixed light spectrum is white, wherein the illumination device is rectangular, wherein the first illumination section is geometrically divided into two partial sections, wherein the second illumination section extends along an entirety of the illumination device and is arranged between and/or centered between the two partial sections of the first illumination section, and wherein first illumination section emits the light of the variable light spectrum in a first direction and the second illumination section emits the white fixed light spectrum in a second direction, wherein the first direction and the second direction are parallel to each other.

2. The illumination device according to claim 1, wherein the first illumination section and/or the second illumination section is configured to emit the respective light in the form of stroboscope light flashes, such that the illumination device forms a stroboscope, or wherein the first illumination section and/or the second illumination section is configured to emit the respective light in the form of stroboscope light flashes, such that the illumination device forms a stroboscope, wherein the illumination device comprises a control circuit that is configured to control the second illumination section with at least 20 Hz, with at least 30 Hz or at least 50 Hz to emit regular stroboscope light flashes.

3. The illumination device according to claim 2, wherein the control circuit is configured to vary a control frequency between 0.5 Hz and a maximum control frequency, or wherein the control circuit is configured to control the first illumination section with at least 20 Hz in order to emit regular light flashes and/or stroboscope light flashes.

4. The illumination device according to claim 1, further comprising a control circuit is configured to control the first illumination section and the second illumination section in a synchronous manner or in an asynchronous manner.

5. The illumination device according to claim 1, wherein the illumination elements of the first illumination section comprise RGB LEDs.

6. The illumination device according to claim 1, wherein the plurality of illumination elements of the first illumination section are divided into fields that are separately controlled.

7. The illumination device according to claim 6, wherein the first illumination section is divided into at least 10 fields.

8. The illumination device according to claim 1, wherein the second illumination section is formed as a stroboscope tube or in the form of a tube.

9. The illumination device according to claim 1, wherein the second illumination section comprises several white LEDs as illumination elements, or wherein the second illumination section comprises several white LEDs as illumination elements, and wherein the second illumination section comprises more than 100 white LEDs and/or wherein the second illumination section comprises less than 500 white LEDs.

10. The illumination device according to claim 1, wherein the several illumination elements of the second illumination section are divided into at least two fields that are separately controlled.

11. The illumination device according to claim 10, wherein the second illumination section is divided into at least three fields.

12. The illumination device according to claim 1, wherein the illumination device comprises a longitudinal housing that is limited by two lateral faces in a longitudinal extension.

13. The illumination device according to claim 12, wherein the illumination device comprises a longitudinal stand extending parallel to the longitudinal housing; and wherein the longitudinal stand comprises two bearing blocks with rotational joints via which the longitudinal housing is supported in a pivotable manner around a longitudinal axis extending parallel to the longitudinal stand and the longitudinal housing with respect to the longitudinal stand.

14. The illumination device according to claim 13, wherein the longitudinal housing comprises two lateral recesses in which the two bearing blocks are arranged, such that the lateral faces of the longitudinal housing and lateral faces which limit the longitudinal extension of the longitudinal stand with its bearing blocks in the longitudinal extension are terminated in a planar manner with respect to one another, or wherein the lateral faces of the longitudinal stand are recessed with respect to the lateral faces of the longitudinal housing.

15. The illumination device according to claim 13, further comprising a unit configured to provide motor-driven pivoting and/or a motor with a toothed belt in at least one of the bearing blocks.

16. The illumination device according to claim 13, wherein the longitudinal housing is configured to pivot around the longitudinal axis by at least 180.

17. The illumination device according to claim 1, wherein the illumination device comprises a housing and a stand, wherein the housing is configured to pivot in a biaxial manner or pivot in a biaxial motor-driven manner with respect to the stand.

18. An illumination panel, comprising: a first illumination section comprising a plurality of illumination elements that are each configured to emit light in a light spectrum, wherein the light spectrum is variable; a second illumination section comprising a plurality of LED elements that are each configured to emit light with a fixed light spectrum, wherein the fixed light spectrum is white, wherein the first illumination section is geometrically divided into two partial sections, wherein the second illumination section is arranged between and/or centered between the two partial sections of the first illumination section, and wherein first illumination section emits the light of the variable light spectrum in a first direction and the second illumination section emits the light fixed light spectrum in a second direction, wherein the first direction and the second direction are parallel to each other.

19. The illumination panel according to claim 18, wherein the two partial sections and the second illumination section extend in parallel along a longitudinal axis of the illumination panel.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Embodiments of the present invention will be detailed subsequently referring to the appended drawings, in which:

(2) FIGS. 1a-c is a schematic illustration of an illumination device according to an embodiment in three different perspective illustrations;

(3) FIG. 2 is a schematic illustration of a panel according to an embodiment;

(4) FIGS. 3a, 3b are schematic illustrations of a rectangular panel according to further embodiments; and

(5) FIGS. 4a-4c are schematic illustrations of a round panel according to further embodiments.

DETAILED DESCRIPTION

(6) Before embodiments of the present invention will be discussed below based on accompanying drawings, it should be noted that the same elements and structures are provided with the same reference numbers, such that the description of the same is inter-applicable and inter-exchangeable.

(7) FIG. 1a shows a three-dimensional illustration of an illumination device 10 including a longitudinal housing 12 in this embodiment. FIG. 1b shows a further three-dimensional view of the same illumination device 10. The longitudinal housing has a rectangular opening 120 in which a panel 20 is inserted. FIG. 1c shows the front view of the panel 20 in the housing 12.

(8) The panel 20 includes two illumination sections, namely illumination section 22 and 24. In this embodiment, the illumination section 22 is formed by two partial sections 22a and 22b. All sections 22a, 24 and 22b extend longitudinally along the longitudinal illumination device 10 and along the longitudinal housing 12, respectively. As can in particular be seen in FIG. 1c, the panel 20 is rectangular and has, for example, an aspect ratio of 2:1 (length to width).

(9) According to embodiments, the three sections 22a, 22b and 24 are arranged with respect to one another as follows: all three sections 22a, 22b and 24 extend longitudinally along the longitudinal axis. Here, for example, the two partial sections 22a and 22b are of approximately the same size. The section 24 is provided between these two partial sections 22a and 22b. Due to the fact that the two sections are of the same size, a section 24 is centered with respect to the two partial sections 22a and 22b.

(10) The section 22a+22b of the panel includes a plurality of illumination elements, here LEDs or in particular RGB LEDs. Generally, these are illumination elements that are variable with respect to their color spectrum. In this embodiment, the second section 24 is also formed by LEDs, but LEDs with a fixed light spectrum, in particular a white light spectrum. With regard to its geometrical arrangement, this second section emulates a fluorescent tube or flash tube, i.e. the same has a high aspect ratio of, for example, 5:1 (length to width). According to further embodiments, in particular this second section can also be formed by a standard fluorescent tube. Both section 22a+22b and section 24 are formed by a plurality of illumination elements that are repeated both in the longitudinal direction in the respective section as well as in the width direction of the respective section. Section 24 comprises, for example, three or four illumination elements in width and approximately 60 illumination elements in length.

(11) The panel can be provided with a control controlling the three sections 22a, 22b and 24 accordingly. Here, the control can be implemented such that the RGB LEDs of the sections 22a and 22b can be varied in color. This control can be implemented independently of section 24. This section can also be adjusted with a specific control frequency, such that flashing effects are possible. The control controls the section 24 advantageously like a stroboscope, i.e. with a repeating frequency in the range of 0.5 to 60 Hz or in particular in the range of 1 to 30 Hz. As already explained above, the emitted light flashes have a very short illumination period but also high illumination intensity. This section illumination section 24 can also be controlled independently of the first illumination section 22a+22b. According to a further embodiment, a common control would be possible, such that, for example, both by means of the illumination elements of section 22a and 22b and also by means of the illumination elements of section 24, simultaneous lighting or simultaneous emission of light flashes is possible. The same can also be performed asynchronously, such that color and white stroboscope light flashes are emitted alternately. Thereby, fading effects become possible. By using only LEDs, thermal problems as they typically occur in glass bulb spotlights can be reduced as well.

(12) According to an embodiment, both sections 22a, 22b and section 24 can be divided into sub-sections, such as 12 sub-sections per partial section, such that individual fields can be controlled separately. In other words, the plurality of illumination elements are grouped per illumination section 22a, 22b and 24, such that the same are controlled together. This enables moving light effects that can also move beyond the stroboscope range 24 starting from a continuous panel 20.

(13) Here, it should be noted that, according to embodiments, the section 24 normally comprises approximately 100 to 500 LEDs, such as 216 LEDs, while the complete section 22a+22b normally comprises more than 1000 LEDs, such as 1440 LEDs. The entire panel can receive power, for example, in the order of 1 kW or 1.2 kW and the same can have a lighting efficiency of up to 90% due to the used LED technologies.

(14) Regarding the control it should be noted that the same is controllable via standard protocols, such as DMX-512, ARTNET or RDM. According to embodiments, the illumination device 10 can also include a display with a control. This display is indicated by reference number 30. According to embodiments, the control comprises means for temperature control and in particular for heating control. For remote control of the control, apart from the display a signal connector, such as an XMR-5-Pin connector can be provided (cf. reference number 31).

(15) According to a further embodiment, the longitudinal housing 12 can have a specific shape. As, for example, shown in FIG. 1a, the longitudinal extension (cf. x direction) of the housing is limited on the left and right by the two lateral faces 12s1 and 12s2. Additionally, the illumination device includes a stand 40, comprising, in this embodiment, two bearing blocks at the end of the longitudinal extension. These bearing blocks are indicated by reference numbers 4011 and 4012. The bearing blocks have pivot joints 40d, via which the longitudinal illumination housing 12 is rotationally supported with respect to the stand 40. Thereby, the housing 12 and hence the panel 20 and the illumination sections 22a, 22b and 24, respectively, can be pivoted around a longitudinal axis. This longitudinal axis extends along the longitudinal extension of the longitudinal stand 40 and the longitudinal housing 12 and parallel to the direction x, respectively.

(16) In order that, according to embodiments, the longitudinal extension of the illumination device 10 is defined not by the stand 40 but in particular by the illumination element 12 with its almost full-surface illumination panel 20, the illumination housing 12 includes, both on the side of the lateral face 12s1 and on the side of the lateral face 12s2, a recess 12a in which the bearing blocks 4011 and 4012 are arranged. In the x direction, the recess 12a is of a depth that is deeper than or is the same as the thickness of each bearing block 4011 and 4012. This has the effect that the lateral faces 40s of the bearing block terminate in a planar manner with the lateral faces 12s1 or in an essentially planar manner (i.e. up to 5 mm offset, offset mm). Further, the dimensioning of the recess 12a can be designed such that the lateral faces 40s of the bearing blocks are recessed with respect to the lateral faces 12s1 of the housing 12. This has again the same effect, namely that the longitudinal extension (in x direction) is defined by the housing 12 and not by the stand. It is an advantage of such an arrangement that several illumination elements 10 can be arranged beside one another and can be easily positioned since the same are set up with their front faces adjoined to one another. With regard to the set-up it should be noted that the illumination device 10 can practically be used in any set-up. In that way, a set-up by means of the stand 40 can be implemented and, on the other hand, the stand 40 can also be installed on a traverse or similar support devices.

(17) Generally, concerning the dimensioning of the illumination device, it should be noted that the same has, for example, a length of more than 30 or even 40 cm (for example 390 mm), while the width is in the range of 10 to 20 cm (for example 150 mm). The height is in the range of 20 to 30 cm (e.g. 251 mm).

(18) With reference to FIG. 2, a further embodiment, namely the panel 20 will be discussed. The panel 20 includes a first illumination section formed by two partial sections 22a and 22b as well as a second illumination section 24. As discussed with reference to FIGS. 1a-c, this second illumination section is also provided in a centered manner. The panel includes a plurality of illumination elements that are normally arranged in an equidistant manner, wherein the illumination elements in section 24 are the illumination elements of a type where a fixed (predefined) color spectrum, e.g. a white color spectrum, is emitted, while the illumination elements in the section 22a and 22b are variable in each color spectrum. The three sections 22a, 22b and 22s are again implemented in a longitudinal manner. According to further embodiments, the arrangement and the longitudinal arrangement, respectively, of the sections 22a, 22b and 24 can also be implemented differently. Thus, for example, a second section 24 and a third section 22 can be provided, which then alternate accordingly. Instead of the longitudinal orientation of sections 22a, 22b and 24, vertical orientation would also be possible.

(19) According to a further embodiment, the section 24 can be formed by different elements, such as a standard xenon tube arranged between the sections 22a and 22b. Alternatively, it would also be possible that this tube is provided behind the first illumination section (undivided illumination section), such that the tube radiates through the first illumination section.

(20) FIG. 3a shows a rectangular panel 20 with a cross-shaped second illumination section 24 and, starting from this centrally arranged cross-shaped second illumination section 24, four first illumination sections 22a to 221D (each rectangular) arranged in the corners.

(21) FIG. 3b shows a further variation of a rectangular panel 20 with two second illumination sections 24a and 24h that are not arranged longitudinally but transversally to the longitudinal direction such that the first section 22 is divided in three sub-sections.

(22) FIG. 4a assumes a rectangular panel 20, wherein a line-shaped second section 24 (for example aligned in longitudinal direction) divides the first section 22 into two crescent-shaped first sections 22a and 22b.

(23) FIG. 4b also assumes a round panel 20, wherein here again a cross-shaped second section 24 is provided which divides the first section in four circular segment-shaped sections 22a to 22b.

(24) The panel 20 illustrated in FIG. 4c is also implemented as a round panel and includes a centrally arranged point-shaped second section 24 as well as a first section 22 extending around the central section 24.

(25) All panels 20 to 20 can be installed in the above-discussed illumination unit and in the above-explained housing, respectively. According to embodiments, the panels 20 and 20 can be configured in a square manner instead of in a rectangular/longitudinal manner, such that the housing is then adapted accordingly. For panels 20 to 20, respectively, a corresponding round housing is provided.

(26) In these doubly symmetrical panels 20 to 20, according to embodiments, the housing mechanics can also be extended, such that biaxial pivoting is provided.

(27) Generally, it should be noted that both the shape of the panels and the sections can vary according to embodiments (e.g. triangular panel, diagonal sections or the same).

(28) While this invention has been described in terms of several advantageous embodiments, there are alterations, permutations, and equivalents which fall within the scope of this invention. It should also be noted that there are many alternative ways of implementing the methods and compositions of the present invention. It is therefore intended that the following appended claims be interpreted as including all such alterations, permutations, and equivalents as fall within the true spirit and scope of the present invention.