LIGHT FIXTURE COMPRISING INTERCHANGEABLE LIGHTING MODULES

Abstract

The invention relates to a light fixture (1) comprising an elongated carrier element (5), a number of lighting modules (20), which can be detachably secured to the carrier element (5), and means for supplying power to the lighting module (20), said means comprising an operating device (100) and contacting means (40, 41) which are connected to said operating device (100) and to which the lighting modules (20) can be electrically connected. In said light fixture, the operating device (100) and the contacting means (40, 41) are arranged on a device carrier (50) that can be detachably secured to the carrier element (5).

Claims

1. A light fixture (1), having an elongated carrier element (5), numerous lighting modules (20), which can be detachably secured to the carrier element (5), and means for providing the lighting module (20) with power, comprising an operating device (100) and contacting means (40, 41) connected to the operating device, wherein the operating device (100) and the contacting means (40, 41) are disposed on a device carrier (50), which can be detachably secured to the carrier element (5).

2. The light fixture according to claim 1, characterized in that the device carrier (50) is disposed on the side of the carrier element (5) facing away from the lighting modules (20), wherein the contacting means (40, 41) pass through holes (10) formed in the carrier element (5).

3. The light fixture according to claim 1, characterized in that the contacting means (40, 41) are disposed on connecting boards (45), which can be detachably secured to the device carrier (50).

4. The light fixture according to claim 3, characterized in that a plug (44) is disposed on each of the connecting boards (45), which is connected at one end to the contacting means (40, 41) and at the other end to the operating device (100).

5. The light fixture according to claim 4, characterized in that the connection between the plug (44) and the operating device (100) occurs via cables.

6. The light fixture according to claim 5, characterized in that the connection of the plugs (44) on all of the connecting boards (45) to the operating device (100) occurs via a cable harness, the individual cables of which are each adjusted to the spacing between the plug (44) and the operating device (100).

7. The light fixture according to claim 5, characterized in that the cables are laid in an intermediate space between the device carrier (50) and the connecting boards (45) held in the device carrier (50).

8. The light fixture according to claim 3, characterized in that contacting means (40, 41) are two lighting modules (20) are provided in each case on each of the connecting boards (45).

9. The light fixture according to claim 1, characterized in that the contacting means have spring contacts (41).

10. The light fixture according to claim 1, characterized in that the device carrier (50) can be locked onto the carrier element (5).

Description

[0013] The invention shall be explained in greater detail below, based on the attached drawings. Therein:

[0014] FIG. 1 shows a light fixture according to the invention in a perspective view, diagonally from above;

[0015] FIG. 2 shows a side view of the light fixture according to the invention;

[0016] FIG. 3 shows an enlarged side view of the end region of the light fixture;

[0017] FIG. 4 shows a view of the light fixture according to the invention from below;

[0018] FIG. 5 shows a lighting module that is to be interchangeably secured to the light fixture;

[0019] FIG. 6 shows a perspective view of an end region of the carrier element for the light fixture;

[0020] FIG. 7 shows a sectional view of the light fixture, transverse to the longitudinal axis, wherein the interchangeable lighting module is disposed at a spacing to the carrier element;

[0021] FIG. 8 shows a sectional view corresponding to FIG. 7, wherein here the lighting module is attached to the carrier element;

[0022] FIGS. 9 and 10 show views of the end region of the device carrier according to the invention;

[0023] FIG. 11 shows a perspective view of the entire device carrier; and

[0024] FIG. 12 shows and enlarged sectional view illustrating the detachable securing of the device carrier to the carrier element for the light fixture.

[0025] FIGS. 1 and 2 show different views of the light fixture, indicated as a whole with the reference symbol 1. The light fixture 1 is designed as a suspended lamp in the depicted exemplary embodiment, and can, in this case, be suspended from the ceiling of a room, for example, via at least one suspension element; in the depicted case, via numerous cords 2 on a (not shown) carrier element. In a slightly modified manner, the light fixture 1 according to the invention could, however, also be used as a light fixture installed in a ceiling.

[0026] As can be seen in the figures, the light fixture 1 as a whole has an elongated design, and extends thereby along a longitudinal axis L. The shape of the light fixture 1 is established, primarily by a carrier element 5, which represents the central element of the light fixture 1, and on which all of the other components are disposed, or secured, respectively. A substantial feature of this carrier element 5 is that it forms a receiving region having a U-shaped cross section on its undersurface, or its light emitting surface, respectively, which shall be described in greater detail below, in which numerous lighting modules can be interchangeably arranged. The carrier element 5 is preferably formed by an aluminum profile, which is closed at both ends by end caps 15, which in turn are detachably secured to the carrier element 5.

[0027] FIG. 6 shows the end region of the carrier element 5 from below, wherein the receiving region 6 for the interchangeable lighting modules can be seen. This receiving region is formed by a base surface 7 as well as two U-legs 8 pointing downward, running on both sides of the base surface 7. As a result, the receiving region 6, together with the aforementioned end elements, or closure caps 15 is formed as a whole as an elongated trough having a U-shaped cross section. Numerous lighting modules14 lighting modules in the depicted exemplary embodimentare then disposed therein, wherein one of them is shown in a perspective view in FIG. 5.

[0028] The lighting module 20 thus has a basically rectangular shape. As can be derived in particular from the sectional views in FIGS. 7 and 8, the lighting module is composed of a trough-like lens mount 21, formed by a translucent or transparent material, having a base surface 22, which forms the light emitting surface of the lighting module 20, and four side walls 23, 24. Two snap-in lugs 25 are formed on each of the two shorter side walls 24 and are used to secure the light fixture 1 to the carrier element 5. As can be derived from the depiction in FIG. 6, corresponding snap-in holes, or slits 9 are formed for this in the base surface 7 of the receiving region 6 of the carrier element 5, in which the snap-in lugs 25 of the lighting module 20 can engage in a latching manner.

[0029] The base surface of the lighting module 20 is formed by the back surface of a board 30 having numerous LEDs 31 disposed thereon, preferably in the manner of a matrix (see FIG. 7). These LEDs 31 represent the light sources for the lighting module 20, wherein the LEDs 31 may be assigned to different optical means that have an effect on the light emission.

[0030] As can be seen in FIG. 7, lenses 26 are formed in the depicted exemplary embodiment in the central region of the lens mount 21, which are assigned to respective individual LEDs 31. The light from the LEDs located on the edges, in contrast, is not emitted such that it is guided by lenses, but instead, should elicit a basically diffused, encompassing illumination frame. This is achieved by means of a special diffusion frame 35, which is placed in the lens mount 21, and in comparison to the lens mount 21, which is preferably made of a transparent material, is formed by a diffusing material, or contains light diffusing particles, respectively. It should be noted, however, that as a matter of course, the design of the optical elements for the individual lighting modules 20 can also differ therefrom, if another type of light emission is desired. The design of these optical elements is of no greater relevance for the fundamental concept of the present invention. The important thing, however, is that numerous lighting modules 20 are secured to the carrier element 5 for the light fixture 1, such that an appearance of the undersurface, or the light emitting surface, respectively, of the light fixture 1, such as that depicted in FIG. 4, is obtained in this regard.

[0031] The LED board 30 forming the back surface of the lighting module 20 is locked in place on the lens mount 21. Corresponding latching elements 27 for this are formed on the two side walls 23, which interact with the board 30 such that, in a simple manner, they can be placed from behind on the open lens mount 21 and then removed therefrom by pressing against them. In this manner, a stable component is formed, by means of which, in turn, the individual LEDs 31 are efficiently protected against external effects.

[0032] The power supply for the lighting modules 20 disposed on the carrier element 5 is obtained using special contacting means, which comprise spring contacts 41 in the depicted exemplary embodiment, which interact with the contact panels 35 disposed on the back surface of the LED board 30. The spring contacts 41 are each disposed here on a contact block 40 that can be seen in FIG. 7, which extends through a corresponding hole 10 in the base surface 7 of the receiving region 6 of the carrier element 5. This means that these spring contacts 41 can be accessed from the receiving section 6 of the carrier element 5 such that they come in contact with the contact panels 35 of the lighting module 20 when the lighting module 20 is placed in the receiving region 6. As a result, the electrical connection between the spring contacts 41 and the lighting module 20 is ensured, such that theseas shall be explained in greater detail beloware connected to the actual means for providing an operating current for the LEDs 31.

[0033] As can be derived from the depiction in FIG. 5, numerous contact panels 35 are formed on the back surface of the LED board 30, wherein, depending on the operating type of the light fixture 1, it is not necessary for all of the contact panels 35 to be used. This depends on, among other things, whether only one simple switching on and off of the module is provided for, or whether it is intended to provide an individual control thereof. In the depicted exemplary embodiment, only two spring contacts 41 are used, such that the module 20 can thus be supplied with exclusively one suitable supply voltage, or a supply current, respectively, and all of the modules are operated, accordingly, as a unit. A communication, which furthermore would also enable the transmission of error data or suchlike, is not provided for in the depicted exemplary embodiment, wherein, in this case, more of the contact panels 35 would be used, as needed.

[0034] Another special feature consists of the fact thatas can be seen in FIG. 5two rows of contact panels 35 are provided, which are rotated 180 in relation to one another with respect to the longitudinal axis 1 of the lighting module 20. The reason for this measure is that, as a result, there is the possibility of arranging the lighting module 20 selectively in different orientations on the carrier element 5, in particular in two orientations rotated about 180. This may be useful when the optical elements of the lighting module 20 are designed such that they elicit an asymmetrical light emission, which is stronger in one direction. In this case, it may be provided that the lighting modules 20 disposed on the respective end regions of the carrier element 5 are oriented such that they are rotated in relation to one another, which in turn would elicit a symmetrical light emission by the light fixture 1 when seen as a whole. By arranging two identical contact panels 35, which however are rotated in relation to one another by 180, a corresponding selective arrangement of the lighting module 20 can be enabled in a simple manner, without having to otherwise modify the arrangement.

[0035] It should be noted that, instead of the depicted spring contacts, and the contact panels interacting therewith, plug-in systems can also be used for connecting the lighting module.

[0036] FIGS. 7 and 8 show, as stated above, a sectional view of the light fixture 1, wherein, first, in FIG. 7 the lighting module 20 is disposed at a spacing to the carrier element 5, and in FIG. 8 it is secured to the carrier element 5. Furthermore, the shape of the carrier element 5 can also be derived from the depictions in FIGS. 7 and 8, wherein it can be seen that this has two side walls 12 running in the longitudinal direction above the U-shaped receiving region 6, which form a narrower second receiving region 13, facing upward and in turn U-shaped.

[0037] These side walls 12 can also be easily seen in the depictions in FIGS. 1 to 3, wherein it can also be seen that the walls 12 do not exhibit the same height of the entire length of the light fixture 1. In particularseen in the longitudinal directiona slightly raised receiving space 13a is formed in the central region of the light fixture 1, which serves to receive the operating device 100 of the light fixture 1, via which the external supply voltage is converted to a suitable operating voltage, or operating current, respectively, for the lighting module 20. Furthermore, an additional lighting unit 60 for generating an indirect light is provided in this central receiving space 13a, above the operating device 100. Somewhat lower receiving spaces 13b are formed on both sides of this raised central region 13a, which can likewise serve to receive further lighting units for generating an indirect light, which, however, shall not be explained in greater detail in the present case.

[0038] The present invention is concerned, instead, with special measures, by means of which the electrical connection between the operating device 100 and the spring contacts 41 is ensured, via which the contact to the lighting module 20 is ultimately obtained.

[0039] For this, a so-called device carrier 50 is shown in FIGS. 9 and 10, formed by an elongated sheet metal component, which serves as a central retaining element for the components for supplying power to the lighting module 20. The device carrier 50 thus serves, in particular, for retaining the contact blocks 40 having the spring contacts 41, wherein these are not disposed directly on the device carrier 50, but rather, are mounted on connecting boards 45. These connecting boards 45, wherein one of which is depicted in FIG. 9, each have two contact blocks 40 with spring contacts 41, and are designed for establishing contact to two lighting modules 20.

[0040] The arrangement of the connecting boards 45 on the device carrier 50 preferably occurs, in turn, without tools, which is achieved in that the boards 45 have longitudinal protrusions 46 on their longitudinal sides. These are provided to connect the boards 45 to the device carrier 50 in the manner of a bayonet locking. The device carrier 50, having a C-shaped cross section, thus has, for this purpose, two elongated side walls 51, in each of which holes 52 are formed, which open into undercuts 53. The connecting boards 45 are then placed on top from above (in accordance with the depiction in FIG. 9), such that the protrusions 46 engage in the holes 52. The boards 45 are subsequently displaced in relation to the device carrier 50 in the direction of the arrow, such that the protrusions 46 engage in the undercuts 53. As a result, the board 45 is securely supported on the device carrier 40, without the need for a tool or additional attachment means. In this manner, numerous connecting boards 45 of this type are disposed on the device carrier 50, wherein, in the present case, half as many boards 45 are needed as the lighting modules 20 that are to be secured to the carrier element 5 for the light fixture 1.

[0041] Furthermore, a plug 44 is also disposed on each connecting board 45the use of a clamp would also be conceivablewhich is connected to the contact blocks 40 via conductor paths, which are not depicted in detail. The plug 44 is on the side of the board 45 lying opposite the contact blocks 40, and is connected to the operating device 100 via cables. In this manner, the electrical connection between the operating device 100 and the contact blocks 40 is thus ensured.

[0042] FIG. 11 shows an entire device carrier 50 having the connecting boards 45 disposed on the undersurface, as well as the operating device 100 disposed on the opposite side. There is also a clamp 101 disposed on the side having the operating device 100, via which the connection to the external current supply lines is obtained.

[0043] As has already been stated, the connection between the operating device 100 and the connecting boards 45 is obtained by means of cables, wherein for this, a cable harness is preferably used, which has electrical lines that are connected at one end to the operating device 100 and at the other end to the connecting boards 45, specifically with plugs 44 in the connecting boards 45. The cables of the cable harness (not shown) are adjusted thereby to the spacing between the operating device 100 and the connecting boards 45, such that there is no excess cable. Instead, the cables are preferably laid in the intermediate region between the base surface 55 of the device carrier 50 and the connecting boards 45, such that ultimately an orderly component is obtained, as is depicted in FIG. 11. This contains all of the substantial components for supplying power to the lighting module 20, and can then be secured to the carrier element 5 for the light fixture 1 in a simple manner.

[0044] The attachment of the device carrier 50 occurs, in turn, preferably without tools, wherein for this, in particular, a locking in place is provided for. This is achieved in that convex nubs 56 are formed on the side walls 51 of the device carrier 50, as can be seen in particular in FIG. 10. The device carrier 50 is then locked in place on the carrier element 5 for the light fixture 1 using these nubs 56. This is achieved in that the device carrier 50 is placed in the open upper receiving region 13 of the carrier element 5 from above, and pushed toward the bottom, until the convex nubs 56 engage with corresponding inward projections 15 of the aluminum profile, which aluminum profile forms the carrier element 5. By means of a guide lug 57, which is formed on an end surface end of the device carrier 50, and engages in a hole in the device carrier 5, it is ensured that the device carrier 50 is placed in the carrier element 5 such that it is positioned and oriented correctly.

[0045] The locking in place feature can be seen easily from the enlarged depiction in FIG. 12, which shows the arrangement of the device carrier 50 in the carrier element 5. The intermediate space between the base surface 55 of the device carrier and the connecting boards 45 can also be seen, which is used for guiding the electric lines (not shown) of the cable harness, and in which the plugs, or connectors 44, respectively, are also located. The manner in which the contact blocks 45 with the spring contacts 41 pass through the holes 10 in the base surface 6 of the lower receiving space, such that they are accessible to the contacting areas 35 of the light fixture, can also be seen therein.

[0046] Ultimately, by means of the special design of the device carrier according to the invention, a very modular construction is thus obtained for the light fixture on the whole. The individual components can be very quickly and easily mounted on the carrier element for the light fixture as prefabricated components, and in particular, can be secured thereto without tools, such that, on one hand, the assembly of the light fixture is simplified, and in particular, maintenance can be easily carried out.