• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a luminaire system comprising a first luminaire (1) with a first light source (2) and an operating device (3) for operating the first light source (2) and a second luminaire (4) with a second light source (5), wherein the first light source (2) and the second light source (5) are detachably connected to each other via an electrical connection and the operating device (3) is used to operate the first light source (2) and the second light source (5).
    公开号:AT14509U1
    申请号:TGM50/2014U
    申请日:2014-02-04
    公开日:2015-12-15
    发明作者:Andreas Machate
    申请人:Zumtobel Lighting Gmbh;
    IPC主号:
    专利说明:

    Description: The invention relates to a lighting system with a first luminaire and a second luminaire.
    Such a lighting system in the form of a lighting system with a first light and a second light is known from the prior art. The first lamp comprises a light source and has a ballast for powering the light source. The second lamp is so far the same structure, d. H. It also has a light source and a corresponding ballast. The two lights are mounted on a mounting rail; In this mounting rail run power lines and the lights each have an electrical contacting element for contacting these power lines through which the ballast in question is supplied with power.
    A corresponding ballast represents a significant cost factor with respect to the production of the lamp in question. In addition, the ballast within the lamp requires a significant proportion of the available space. In addition, the ballast contributes significantly to the weight of the lamp.
    The invention has for its object to provide an improved lighting system. In particular, the lighting system should be economically advantageous.
    This object is achieved according to the invention with the object mentioned in the independent claim. Particular embodiments of the invention are indicated in the dependent claims.
    According to the invention, a lighting system is provided which has a first light with a first light source and an operating device for operating the first light source, and a second light with a second light source. In this case, the first light source and the second light source are detachably connected to each other via an electrical connection and the operating device is used to operate the first light source and the second light source.
    In this way, the operating device of the first light can also be used to operate the light source of the second light, so that it is possible to dispense with a second operating device. The second light can therefore be made significantly cheaper and thereby under facilitated conditions, especially with regard to space and weight. As a result, a simplified construction is made possible overall.
    Preferably, the operating device is a converter or a ballast, in particular for converting an AC voltage into a DC voltage for supplying the first light source and the second light source. In this case, the advantages mentioned make themselves particularly noticeable due to the cost, space requirement and weight factor.
    Preferably, the first lamp has a first housing and the second lamp on a second housing, wherein the first housing and the second housing are designed as two separate parts. In this, the second lamp can be handled particularly suitable independently of the first lamp, for example in the context of an assembly of the lighting system.
    Preferably, the lighting system further comprises a support member, in particular in the form of a support rail, wherein both the first housing, and the second housing are arranged held on the support member, in particular reversibly releasably held are arranged. This is particularly advantageous with regard to facilitating the installation of the lighting system.
    Preferably, the lighting system is designed such that the second housing can be solved independently of the first housing reversibly from the support element. As a result, the second housing can be advantageously handled, for example, the second luminaire can thus be dismantled from the mounting rail independently of the first housing for replacement.
    Preferably, the carrier element is a support rail which extends along a longitudinal direction. As a result, the lighting system is particularly suitable as a lighting system. Preferably, the lighting system is designed such that the first light or the second light is arranged to be slidably held on the support rail in the longitudinal direction. This makes it possible in particular to achieve a facilitated production of the electrical connection of the two light sources.
    Preferably, the lighting system is designed such that the first lamp or the second lamp can be reversibly detached from the mounting rail, without requiring a movement of the relevant lamp in the longitudinal direction is required. As a result, the lamp in question, if necessary, for example, for replacement, disassemble without the other lamp or possibly a third light moves, in particular along the longitudinal axis would have to be moved.
    Preferably, the lighting system further comprises an electrical connection element, in particular in the form of a cable or a slider, through which the electrical connection between the first light source and the second light source is formed. As a result, the production of this compound is facilitated.
    Preferably, the electrical connection element is so movable, for example, slidably disposed on the first light or on the second light that it is not formed from a first position in which the electrical connection between the first light source and the second light source a second position can be moved, in which the electrical connection between the first light source and the second light source is formed. As a result, easier handling for the preparation of the electrical connection is made possible.
    Preferably, the lighting system is designed such that the electrical connec tion element can be moved from the first position to the second position, while the first housing and the second housing are arranged held on the support member, in particular immovably held. As a result, initially the housing of the two lights can be arranged on the support element as intended for assembly and then produce the electrical connection, without the housing of the lights would have to be kept separately in position.
    Preferably, the lighting system further comprises an actuating element which is movably arranged on the first lamp or on the second lamp, that it can be moved from a first position to a second position, wherein the relevant lamp is held on the carrier element is and the first light source with the second light source are connected to each other via the electrical connection, when the actuating element is in the first position and wherein the relevant light is not held on the support member and the first light source with the second light source not via the electrical Connection are connected to each other when the actuator is in the second position. As a result, a facilitated mechanical attachment of the lights is made possible on the support element.
    Preferably, the lighting system is designed such that the actuating element can also be moved to a third position, which is preferably between the first position and the second position, wherein the lamp in question is arranged held on the support member and the first light source are not connected to each other via the electrical connection with the second light source when the actuator is in the third position. This makes it possible to manufacture the electrical connection independently of the mechanical attachment of the lamp.
    The invention will be explained in more detail below with reference to an embodiment and with reference to the drawings. 1 shows a schematic sketch of a luminaire system according to the invention, FIG. 2 shows a perspective sketch of a partial region of the luminaire system which shows one of the luminaires disassembled from the carrier element, FIG. 3 shows a perspective sketch of an end region. [0022] FIG Fig. 4 is a schematic sketch in the manner of an exploded view of the electrical connec tion between the light sources of two adjacent lights in the case of a parallel connection, Fig. 5 is a cross-sectional diagram of a lamp of the lighting system, mounted on Carrier element and [0025] FIG. 6 is a schematic diagram of the electrical connection between the light sources of two adjacent lamps in the case of a series connection.
    FIG. 1 shows a schematic sketch of a luminaire system according to the invention. FIG. The lighting system comprises a first luminaire 1, which has a first light source 2, and an operating device 3 for operating the first light source 2.
    In the example shown, the first light source 2 is an LED light source (LED: light-emitting diode) which, for example, as shown in FIG. 6 in separated form, comprises a board 21 on which at least one LED 22 is arranged.
    Furthermore, the lighting system comprises a second light 4, which has a second light source 5. The second light source 5 may be designed analogously to the first light source 2, that is to say comprise in particular a circuit board 51 on which at least one LED 52 is arranged.
    The first light source 2 and the second light source 5 are detachably connected to each other via an electrical connection, in particular reversibly detachable. In this case, the operating device 3 is used to operate the first light source 2 and the second light source 5. In this way, a separate operating device for the second light source 5 can be saved.
    It should be noted that according to the prior art in a corresponding lamp, a ballast is usually designed to provide a power that is well above that power that is required by the light source. The ballast is therefore not operated under full load, reducing the risk of damage at a higher ambient temperature is reduced. However, this means that the ballast according to the prior art is only "partially" used.
    The operating device is preferably a converter or a ballast, in particular for converting an AC voltage into a DC voltage for the power supply of the two light sources 2, 5.
    The electrical connection between the first light source 2 and the second light source 5 is formed in the example shown by an electrical connection element 9, which is preferably designed such that it in a repeated manner, in particular manually, separated from the two light sources 2, 5 and again as intended can be connected to the latter. For example, the electrical connection element 9 may be a cable, a slider, a lever, a switch or the like.
    As in the example shown, the first lamp 1 preferably has a first housing 6 and the second lamp 4, a second housing 7, wherein the first housing 6 and the second housing 7 are designed as two separate parts. As a result, the two lights 1, 4 handle particularly suitable. The electrical connection element 9 can be designed, for example, independently of the two housings 6, 7 or be arranged on one of the two housings 6, 7 or each be arranged with one part on each one of the two housings 6, 7.
    As is apparent from Fig. 1, the lighting system further preferably comprises a support member 8, wherein both the first housing 6, and the second housing 7 are arranged held on the support member 8. In the support member 8, it may insbesonde re, as outlined in the figures, to act a support rail 8, which extends along a longitudinal axis L. In this way, the lighting system can be designed particularly suitable as a lighting system. The two lights 1, 4 can hereby be elongated and arranged parallel to the support rail 8 aligned with the latter.
    Preferably, the support member 8 has a power line, wherein the first lamp 1 is electrically connected via a current tap element with this power line and the current tap element on the other hand is electrically connected to the operating device 3.
    Preferably, the two lights 1, 4 are arranged on the support member 8 is arranged, for example, arranged suspended on the support member 8, wherein a light output of the lights 1, 4 is provided in the lower half space. Preferably, the lights 1, 4 are arranged reversibly releasably held on the support member 8, so that they can be solved for disassembly of the support member 8 and can be connected for mounting with the support member 8 as intended. In particular, the design is such that the second housing 7 can be reversibly detached from the carrier element 8 independently of the first housing 6. The same applies preferably for a release of the first housing 6 independently of the second housing 7. In this way, the lights 1, 4 independently of each other from the support member 8 disassemble or replace.
    In general, the lighting system may have more than two lights, so - as outlined in Fig. 1 - at least one other light 4 ', preferably wherein the at least one further light 4' analogous to the first light 1 or to the second light 4 is designed and accordingly arranged analogously to the carrier element 8. In this way, a light band of any length can be formed in principle.
    For example, it can be provided that in each case a lamp which is designed analogously to the second lamp 4, is arranged following a lamp, which is designed analogously to the first lamp 1 or vice versa, so that the lights of the two mentioned Types in the longitudinal direction L alternately consecutively form a row. However, it can also be provided that a luminaire of the type of the first luminaire 1 supplies more power than a luminaire of the type of the second luminaire 4.
    In this case, the design is further preferably such that the first lamp 1 or the second lamp 4 can be reversibly released from the mounting rail 8, without requiring a movement of the relevant lamp 1.4 and the respective housing 6, 7 in Lengthwise L is required. In this way, a lamp of the lighting system can be replaced without this, another lamp must be moved in the longitudinal direction. This is particularly advantageous if the lighting system comprises more than two lights.
    As sketched in Fig. 2 fragmentary and perspective, in the example shown, the electrical connection element in the form of a slider 9 is designed and arranged on the second lamp 4, in particular displaceable, preferably parallel to the longitudinal axis L slidably, as shown in FIG. 2 indicated by a double arrow. 2, the second light 4 is shown separated from the support rail 8. In the mounted or ready state of the light system is provided that the first housing 6, so the housing of the first lamp 1 and the second housing 7 and the housing of the second lamp 4 so arranged directly adjacent to the support rail 8, that the slide. 9 viewed in the direction of the longitudinal axis L - on the one hand with the first housing 6 is arranged overlapping and on the other hand with the second housing 7. In other words, the two housings border 6, 7 frontally to each other.
    In Fig. 3, an end portion of the second lamp 4 is sketched in perspective, on which the slider 9 is arranged, in Fig. 4 is a sketch for the construction of the slider 9 in the manner of an exploded view. 5 shows a cross section through the second light 4, mounted on the mounting rail 8, normal to the longitudinal axis L at the height of the slide. 9
    The slider 9 may in particular be arranged to be displaceably mounted on the second housing 7, that is to say on the housing of the second lamp 4. As an alternative, it can also be arranged analogously on the first housing 6, that is to say on the housing of the first luminaire 1. In the following description and in the figures, for the sake of simplicity, only the case is considered in which the connecting element or the slider 9 is arranged on the second lamp 4.
    In the example shown, the slider 9 comprises a base body 91 made of an electrically non-conductive material, such as plastic and electrically conductive contacts 92 which are arranged fixed to the base body 91. In Fig. 4, the base body 91 and the contacts 92 are sketched separated from each other in the manner of an exploded view.
    On the board 21 of the first light source 2 electrical conductor tracks are formed, which are connected to the at least one LED 22 of the first light source 2 and analogously formed on the circuit board 51 of the second light source 5 electrical conductor tracks, with the at least one LED 52 of the second light source 5 are connected. The contacts 92 of the slider 9 electrically conductively connect said electrical traces of the two boards 21,51 when the electrical connection between the two light sources 2, 5 is formed as intended.
    In the example shown on the board 21 of the first light source 2 Kontaktfe-countries 23 are formed and on the board 51 of the second light source 5 corresponding further contact springs 53, wherein in the connected state, the contacts 92 directly the contact springs 23 and the other contact springs Contact 53 electrically. The design may be such that the contacts 92 are moved in this direction by said movement of the slider 9 in the direction of the longitudinal axis L, so that the contact described by a sliding movement of the contacts 92 relative to the contact remote 23 and the other contact springs 53rd is reached or produced.
    Preferably, the two light sources 2, 5 are designed so that their boards 21, 51 have a "front" and a "back", wherein the LEDs 22, 52, as shown in FIG. 6, arranged on the respective front are and the contact springs 23 and the other contact springs 52 on the respective back. This is advantageous with respect to the available space, in particular because on the side of the LEDs 22, 52 in this way more space is available for an optical element for influencing a light emitted by the relevant LEDs 22, 52.
    In principle, it can be provided that the first light source 2 and the second light source 5 are connected in series or in parallel. Accordingly, it may accordingly be provided that the LEDs 22 of the first light source 2 and the LEDs 52 of the second light source 5 are connected in series or connected in parallel. In Fig. 4 the case of a corresponding parallel connection is sketched. For this purpose, the two poles of the first light source 2 can simply be connected correspondingly to the two poles of the second light source 5.
    In principle, it is not necessary for the slide 9 to have a mechanical connection function between the two housings 6, 7. However, the slide 9 - in addition to the said electrical connection function - also have a mechanical connection function, for example, an at least supporting mechanical coupling function, as in the embodiment shown in the figures case.
    Preferably, the connecting element or the slider 9 is so movably arranged on the relevant, in this case the second lamp 4, that it is not formed from a first position in which the electrical connection between the first light source 2 and the second light source 5 can be moved to a second position, in which the electrical connection between the first light source 2 and the second light source 5 is formed. In Fig. 3, the slider 9 is accordingly shown in the first position, in Fig. 4, the contacts 92 of the slider 9 are sketched according to the second position.
    As is apparent from Fig. 3, the slider 9 is preferably designed such that it - viewed in the direction of the longitudinal axis L - does not extend beyond the housing 7 of the second light 4 addition, when it is in the first position. In this way, it is possible that the second lamp 4 can be removed from the mounting rail 8, without the need for the first lamp 1 must be dismantled for this purpose.
    Further preferably, the design is such that the electrical connection element or the slider 9 can be moved from the first position to the second position, while the first housing 6 and the second housing 7 on the support element or the Support rail 8 are arranged held, in particular immovably held are arranged. In this way, the housings 6, 7 of the two lamps 1, 4 can be attached to the mounting rail 8 for mounting the lamp system in a first step, and in a subsequent, second step, the electrical connection between the two light sources 2, 5 can be produced the other way around for disassembly.
    Particularly preferably, the design is such that the connecting element or the slide 9 can be moved from an outer space of the light system from the first position to the second position, preferably manually. In the embodiment shown, the connecting element or the slide 9 for this purpose a manual attack surface 93.
    For easier attachment of the second light 4 to the carrier element or the support rail 8, the light system in the example shown comprises an actuating element 10th
    The actuator 10 is movably arranged on the second lamp 4, that it can be moved from a first position to a second position, wherein the second lamp 4 is held held on the support member 8 when the actuator 10 in the located first position and is not held held on the support member 8 when the actuator 10 is in the second position. Further preferably, the design is such that the first light source 2 are connected to the second light source 5 via the electrical connection with each other when the actuator 10 is in the first position and this electrical connection is not formed when the actuator 10 in the second position.
    In particular, the design may be such that the arrangement of the second lamp 4 is secured to the support member 8, in particular mechanically secured when the electrical connection is formed or when the actuator 10 is in the first position.
    For example, the actuating element 10 may be rotatably mounted on the second lamp, preferably mounted rotatably about an axis A, which is oriented, for example, oriented perpendicular to the longitudinal direction L. For the preparation of the connection, the design may be such that a rotational movement of the actuating element 10 is mechanically converted into a translational movement of the connecting element 9, in particular in a translational movement in the direction of the longitudinal axis L. For example, this can be a toothing (gear on rack) or a hinged Connecting a connecting rod serve.
    Preferably, the lighting system is further designed such that the actuating element 10 can also be moved to a third position, which is preferably between the first position and the second position, wherein the second lamp 4 is held held on the support member 8 and the first light source 2 with the second light source 5 are not connected to each other via the electrical connection when the actuator 10 is in the third position.
    Also, the first lamp 1 may have a so far corresponding actuator 10, which is then preferably also designed to serve as a current tap element, is passed through the current from the support member 8 to the operating device 9. Accordingly, in the case of the second luminaire 4, the actuating element 10 does not serve as a current-tapping element for current tapping from the carrier element 8.
    The actuating element 10 can be arranged in an end region of the relevant luminaire, for example integrated in an end cap of the luminaire, in particular if the housing concerned consists of sheet steel.
    In the example shown, the lighting system is a lighting band system. More generally, however, the lighting system can also be designed such that the luminaires are individual luminaires that do not form a light band. The individual lights can be provided, for example, to be distributed in a ceiling. The electrical connection element 9 is preferably designed as a flexible cable.
    As mentioned, the sketch of Fig. 4 shows a parallel connection. In contrast, FIG. 6 outlines the case of a series connection. In order to produce a corresponding series connection, provision may be made for the circuit to be interrupted about the first light source 2 and to be passed on to the circuit around the second light source 5. For example, it can be provided for this purpose that the circuit is manually interrupted by the first light source 2 by, for example, a bridge or a jumper is pulled or a switch is actuated, so that the circuit is thereby interrupted accordingly.
    The electrical connection element 9 can be formulated more generally, for example mechanically flexible or mechanically fixed or rigid. In the first case, it may be, for example, a cable. In the second case may be, for example, a male-female connection, as shown in the embodiment described above in the form of the slider 9 with reference to FIG. 4 or a switch, a lever, a jumper or the like.
    In the following, some design options are shown in more detail, wherein the first lamp 1, which has the operating device 3 is referred to as "mother light" and the second lamp 4 accordingly as a "daughter lamp".
    In a design as a (flexible) cable, for example, the mother lamp at an end region to which the subsidiary lamp is to be connected, have a cable tail with a plug which is or is connected to a corresponding contact element on the part of the daughter lamp. It can be provided that the slave lamp or its housing is mounted in the direction of the longitudinal axis L slidably on the support rail 8; In this way, it can be easily electrically connected to the mother lamp and then push it to push the mother lamp zoom. According to another option, the secondary lamp can be connected directly to the mother lamp and then mounted to the latter in abutment. It remains possible, for example, in a maintenance case to dismantle one of the lights from the mounting rail 8.
    In the case of a mechanically rigid or rigid design, provision may be made, for example, for an area to be formed at an end region of one of the luminaires, which makes it possible to connect further luminaires in a direction perpendicular to the longitudinal direction L, this connection being in the longitudinal direction L , as well as releasably designed in the direction perpendicular thereto. This results in a kind of "gearing". A continuous light line is not suitable to realize this.
    权利要求:
    Claims (13)
    [1]
    Claims 1. A lighting system, comprising - a first light (1) having a first light source (2) and an operating device (3) for operating the first light source (2), - a second light (4) having a second light source (5), characterized in that the first light source (2) and the second light source (5) are detachably connected to each other via an electrical connection and the operating device (3) for operating the first light source (2) and the second light source (5).
    [2]
    2. Lighting system according to claim 1, characterized in that the operating device (3) is a converter or a ballast, in particular for converting an AC voltage into a DC voltage for supplying the first light source (2) and the second light source (5).
    [3]
    3. Lighting system according to claim 1 or 2, characterized in that the first lamp (1) has a first housing (6) and the second lamp (4) has a second housing (7), wherein the first housing (6) and the second housing (7) are designed as two separate parts.
    [4]
    4. Lighting system according to claim 3, characterized by a carrier element (8), in particular in the form of a mounting rail, wherein both the first housing (6), and the second housing (7) are arranged held on the support element (8), in particular reversible are arranged releasably held.
    [5]
    5. Lighting system according to claim 4, characterized in that the second housing (7) independently of the first housing (6) can be reversibly detached from the carrier element (8).
    [6]
    6. Lighting system according to claim 4 or 5, characterized in that the carrier element is a support rail (8) which extends along a longitudinal direction (L).
    [7]
    7. Lighting system according to claim 6, characterized in that the first lamp (1) or the second lamp (4) on the support rail (8) is arranged displaceably held in the longitudinal direction (L).
    [8]
    8. Lighting system according to claim 6 or 7, characterized in that the first lamp (1) or the second lamp (4) can be reversibly detached from the mounting rail (8) without requiring a movement of the relevant lamp (1, 4) in the longitudinal direction (L) is required.
    [9]
    9. Lighting system according to one of the preceding claims, characterized by an electrical connection element (9), in particular in the form of a cable or a slider, through which the electrical connection between the first light source (2) and the second light source (5) is formed.
    [10]
    10. Lighting system according to claim 9, characterized in that the electrical connecting element (9) is movably arranged, for example displaceable, on the first lamp (1) or on the second lamp (4), that it from a first position, in the the electrical connection between the first light source (2) and the second light source (5) is not formed can be moved to a second position in which the electrical connection between the first light source (2) and the second light source (5) is formed.
    [11]
    11. Lighting system according to claims 4 and 10, characterized in that the electrical connection element (9) can be moved from the first position to the second position, while the first housing (6) and the second housing (7) on the support element ( 8) are arranged held, in particular immovably held are arranged.
    [12]
    12. Lighting system according to one of claims 4 to 11, characterized by an actuating element (10) which is movably arranged on the first lamp (1) or on the second lamp (4), that it from a first position to a second position can be moved, wherein the relevant lamp (1, 4) is arranged held on the carrier element (8) and the first light source (2) with the second light source (5) via the electrical connection with each other, when the actuating element (10 is located in the first position and wherein the relevant lamp (1, 4) is not held on the support element (8) and the first light source (2) with the second light source (5) are not connected to each other via the electrical connection, if the actuator (10) is in the second position.
    [13]
    13. Lighting system according to claim 12, characterized in that the actuating element (10) can also be moved to a third position, which is preferably between the first position and the second position, wherein the relevant lamp (1, 4) on the carrier element (8) is held and the first light source (2) with the second light source (5) are not connected to each other via the electrical connection, when the actuating element (10) is in the third position. For this 6 sheets of drawings
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    IT201600108854A1|2016-10-27|2018-04-27|Reggiani Illuminazione|Lighting system|
    BE1025233B1|2017-05-16|2018-12-17|Schreder S.A.|LUMINAIRE FIXING DEVICE WITHOUT TOOL|
    法律状态:
    2017-10-15| MM01| Lapse because of not paying annual fees|Effective date: 20170228 |
    优先权:
    申请号 | 申请日 | 专利标题
    DE202014100258.8U|DE202014100258U1|2014-01-22|2014-01-22|lighting system|
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