• 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 mounting device (1) for a luminaire, comprising at least one mounting profile (2) mountable on a base (3) and at least one luminaire housing (4), the mounting profile (2) and the luminaire housing (4) being recesses in pairs Attachment of one, the mounting profile (2) with the lamp housing (4) connecting the connecting element.
    公开号:AT511794A1
    申请号:T1162/2011
    申请日:2011-08-11
    公开日:2013-02-15
    发明作者:Ernst Kettler;Daniel Fuchs
    申请人:Unique Lights Cee Gmbh;
    IPC主号:
    专利说明:

    1 1
    50355 Ag / Fl Unique Lights CEE GmbH
    Mounting device for a luminaire
    The invention relates to a mounting device for a luminaire, comprising at least one mountable on a subsurface mounting professional! and at least one luminaire housing,
    Light-emitting diodes are increasingly becoming valuable alternatives to conventional light sources such as incandescent bulbs, halogen lamps or fluorescent tubes. The advantages of LEDs are versatile. First, LEDs have a much higher efficiency than other bulbs, and therefore require only a fraction of the energy, a much smaller proportion of the energy is lost in the form of heat. In addition, LEDs have a much longer life than other bulbs, whereby the maintenance is significantly reduced. Also, LEDs are much more robust than other bulbs.
    LEDs do not flicker and are available in different colors of light. Due to the small size LEDs can be used practically everywhere, where previously conventional bulbs were used. Furthermore, LEDs are usually operated at a lower voltage than conventional lamps, and are therefore safe. Light emitting diodes do not emit infrared or ultraviolet radiation and can therefore also be used in protected areas (museums, exhibitions, etc.). Finally, light-emitting diodes do not contain harmful substances harmful to the environment in considerable quantities, as is the case, for example, with fluorescent tubes or energy-saving lamps. t
    50355 Ag / Fl Untere Lights CEE GmbH
    Thus, light-emitting diodes are ideal illuminants for a wide variety of applications. There is a particular need to replace existing light bulbs with energy-saving light-emitting diode systems. In this area, above all existing systems of fluorescent tubes (neon tubes) are mentioned, which are still used in large numbers. Although there are tube-shaped lights based on LEDs (so-called LED tubes), but these are mounted in existing socket (for example, G13 socket). The existing sockets are generally equipped with ballasts (conventional ballasts KVG, electronic ballasts electronic ballasts or low-loss ballasts WG) and starters (KVG and WG). In order to operate the LED bulbs in this existing version, several variants are offered in which but mainly an intervention in the light is required, and therefore the light loses its approval. In most cases, the sockets used (generally G13) are also brittle due to wear and would also need to be replaced. Mostly LED bulbs, which are intended as a replacement for the fluorescent tube, offered as a 230 volt version with integrated power supply. However, for safety reasons, this variant is very controversial, there was also a draft regulation to ban it, but this regulation was prevented by the EU because of feared handshake. The regulation was replaced by a recommendation that these bulbs should not be used for safety reasons.
    It is generally very problematic when LED bulbs intended to replace fluorescent tubes have the power supply built into the tube. Short circuits and too much heat can cause the protection of the power supply to melt and the voltage to be applied directly to the heat sink of the LED. Even LED tubes, where the voltage is applied to only one side, are not a solution to this safety problem. • · • · • »
    ** · »• ·
    50355 Ag / Fl Unique Lights CEE GmbH
    The technical object of the invention is therefore to provide a mounting device with which the replacement of existing lights is simplified with lights on light-emitting diode base and engagement in an existing light does not have to be made. Elaborate alterations and the use of worn components should be avoided. The device should be simple, robust and cheap and still allow the future expansion of light emitting diode systems. The device is intended to enable the attachment of a wide variety of light-emitting diode systems and, in particular, be flexible with regard to different emission angles and required light intensities.
    This object is achieved in that the mounting profile and the lamp housing in pairs have recesses for releasably securing a connecting the mounting profile with the lamp housing Verbindungsseiementes. The recesses can be designed with a substantially C-shaped cross section and the connecting element with a substantially dumbbell-shaped cross-section, wherein the connecting element can be inserted into the recesses with an exact fit.
    By these features according to the invention a simple mounting of the lamp housing on the mounting profile is made possible. For this purpose, a special assembly tool can be provided. The mounting profile can be fixed in a known manner to a substrate, such as a ceiling or an existing light carrier for conventional bulbs.
    According to the invention it is provided that a power supply for the LED to be used light source is replaceable in the lamp housing. In particular, 24V power supplies are provided. A ballast is no longer required. This also has the advantage that a high-quality LED most likely has a longer life than the power supply, and thus the power supply can be replaced regardless of the LED Leuchtmittei used. φ φ
    50355 Ag / Fi Unique Lights CEE GmbH
    According to the invention, it can further be provided that the luminaire housing has insertion grooves for receiving a luminous carrier designed with insertion strips. The light carrier comprises the actual light source, which is mounted for example on a printed circuit board. The light carrier can be provided with one or more parts circuit boards which can be equipped with electrical Verbindungsmittein such as connectors to ensure electrical connection of the circuit boards.
    The luminaire housing may have first insertion grooves for receiving a luminous carrier designed with insertion rails. The luminaire housing can further be designed as a U-shaped profile with two side bars, wherein the insertion grooves are provided on the inner surfaces of the side bars.
    The light carrier can be set up to receive a printed circuit board provided with lighting means, in particular light-emitting diodes, or an LED tube. The light carrier may further be designed to accommodate a lens optic or rod optics. In particular, it can be provided that the light carrier can receive the printed circuit board and the lens optics at the same time. This allows for the first time the simultaneous provision of bulbs and lens optics for bundling or scattering the light in a single light carrier.
    The light carrier can be designed in particular as a U-shaped profile with a central web and two lateral webs, wherein the circuit board having mounting holes and can be detachably fastened to one of the two surfaces of the central web with fastening means. This makes it possible for the first time the subsequent replacement of the lamp with installed luminaire housing by the existing circuit board is removed and replaced with a new circuit board.
    On the inner sides of the lateral webs of the light carrier Einschiebenuten can be provided for receiving the lens optics or the rod optics. The light carrier can be mounted in a first and a second, differing by the height of the central web position on the lamp housing.
    50355 Ag / Fl Unique Lights CEE GmbH • * · * * * * **, ·· * ····· ····: ::: ** * * * *
    This makes it possible for the first time that only through the choice of orientation, in which the light carrier is attached, the radiation characteristics and the lighting pattern of the lamp can be changed.
    The luminaire housing can have insertion grooves for receiving an optical screen. For this purpose, for example, clear, diffuse or colored umbrellas are provided. The mounting profile can be designed to accommodate two or more parallel light housings.
    The mounting device can be designed in lengths of 30 cm to 300 cm and with radiation angles of 30 ° to 300 °. The lamp can be designed as an LED tube.
    The substrate may in particular be an existing housing of a fluorescent tube. The housing used as a substrate can accommodate in particular the power supply of the lamps used.
    For attachment of the mounting profile on the ground fasteners such as screws, nails, or adhesives may be provided.
    According to the invention, lens optics or rod optics with different emission characteristics can be provided.
    At the front sides of the lamp housing cover caps can be provided.
    The mounting profile, the lamp housing and the light carrier can be made of a metal, in particular aluminum, or a plastic.
    Further features of the invention will become apparent from the claims, the description and the drawings. 6
    6 50355 Ag / Fl Uggts CEE GmbH ··············································································································································································································································· «Ft * t · ft · ft · ft
    In the drawings, the subject invention is illustrated schematically in embodiments. Show it
    1 shows a schematic representation of an embodiment of the inventive mounting device;
    2 shows a section through the schematic representation of FIG. 1;
    3 shows a detailed view of the cross section of an embodiment according to the invention;
    4: a detailed view of the cross section of the essential elements of a
    Hk embodiment according to the invention;
    5a-5b: a schematic plan view and a cross-section of a connecting element according to the invention;
    6a-6c show a cross section through different exemplary embodiments according to the invention with different emission characteristics;
    FIGS. 7a-7b: a schematic representation and a cross section of another
    Embodiment of the mounting device according to the invention in the assembly of two parallel light housings;
    8 shows a schematic cross section through a further embodiment of the mounting device according to the invention;
    9 shows a schematic representation of a detail of an embodiment of the mounting device according to the invention;
    10a-10c: a schematic cross section through an embodiment of the mounting device according to the invention with different lens optics. 7
    50355 Ag / Fl Unique Lights CEE GmbH
    Fig. 1 shows a schematic representation of an embodiment of the mounting device according to the invention 1. The mounting device 1 is fixed to a substrate 3, in this embodiment, an existing housing for a fluorescent tube. At both ends of the lamp housing 4 are the mounting profiles 2, which are fastened with fastening means 22 on the substrate 3. Furthermore, the luminaire housing 4 is closed at both ends by cover caps 26.
    Fig. 2 shows a section through the schematic representation of Fig. 1 and discloses further details. The luminaire housing 4 comprises a luminous carrier 10 with a printed circuit board 14 and light-emitting diodes 13 attached thereto and a rod-shaped lens optic 15 (also referred to as rod optics). Furthermore, an optical screen 21 is attached to the lamp housing 4.
    FIG. 3 now shows a further detailed view of the cross section of the embodiment according to the invention from FIG. 1 and FIG. 2. The cross section is shown at the position of the mounting profile 2. The mounting profile 2 is fastened to the substrate 3 with the fastening means 22 (screw). The mounting profile 2 is designed as a rod-shaped Hohi profile with a C-shaped recess for receiving the Verbindungseiements 5. The connecting element 5 is designed as a dumbbell-shaped element, which can be accurately inserted into the recess of the Montageprofiis 2 and the lamp housing 4. The luminaire housing 4 is designed as a substantially C-shaped, bar-shaped profile, which has means for receiving a likewise C-shaped rod-shaped luminous carrier 10, and an optical screen 21. On the light carrier 10 printed circuit boards 14 with LEDs 13 are releasably attached.
    Fig. 4 shows a detailed view of the cross section of the essential elements of the embodiment according to the invention of Fig. 1 -3. The mounting device 1 comprises a mounting profile 2, which is fastened with a fastening means 22 to a substrate. 8th * ·
    I · · · · · > ·················································
    50355 Ag / Fl Unique Lights CEE GmbH
    Furthermore, the mounting device 1 comprises a connecting element 5, which is designed in the form of a dumbbell-shaped pin. This pin connects the luminaire housing 4 with the mounting profile 2 in an easily detachable yet stable manner. For the purpose of connection in the mounting profile a first C-shaped recess 6 and in the lamp housing 4, a second C-shaped recess 7 is provided in the mounting profile 2. The recesses 6, 7 are adapted to the connecting element 5, that by inserting the connecting means 5 in the recesses 6, 7 a tailor-made connection of the lamp housing 4 takes place with the mounting profile 2.
    The luminaire housing 4 is further designed for receiving a luminous carrier 10 for receiving the actual luminous means. In the present exemplary embodiment, the lighting means are light-emitting diodes 13, which are mounted on a strip-shaped printed circuit board 14. Furthermore, on the lamp housing 4, an optical screen 21 can be attached, which serves to scatter the light emitted by the lamp, bundle or dye. For the attachment of the light carrier 10 in the lamp housing 4 first insertion grooves 8 are provided on the inner sides of the first and second side webs 11,12 of the lamp housing 4. This insertion grooves 8 correspond Einschiebeleisten 9 on the outer sides of the lateral webs 17, 18 of the light carrier 10. In this case, the light carrier 10 is designed such that it can be inserted in different positions in the lamp housing. Furthermore, the luminaire housing 4 has second insertion grooves 20 for receiving an optical screen 21.
    The light carrier 10 has on the inner sides of the lateral webs 17, 18 via slide-in grooves 19 for receiving a lens optical system 15. The printed circuit board 14 with the light emitting diodes 13 can be attached both to the upper side 27 and to the lower side 28 of the central web 16 of the light carrier 10 , This can ensure a different radiation characteristic depending on the application. 1 ·" "··"
    50355 Ag / Fl Unique Lights CEE GmbH * · · »* * *
    5a and 5b show a schematic view of an embodiment of the invention Verbindungsseiements 5. In this embodiment, the connecting element is designed as a dumbbell-shaped pin, the two pin heads each having a substantially square cross-section.
    6a-6c show schematic representations of possible embodiments of the attachment of the light carrier 10 in the lamp housing 4 for the purpose of achieving different radiation characteristics. For this purpose, the lamp housing 4 is designed as a C-shaped profile, which has a first side web 11, a second side web 12 and a central web, on which the recess 7 is attached. The two side webs 11, 12 have insertion grooves 8 for receiving insertion strips 9 of the light carrier 10, as well as second insertion grooves 20 for receiving an optical screen 21 (not shown in this illustration).
    The light carrier 10 is also designed as a C-shaped profile, wherein a first lateral web 17, a middle web 16, and a second lateral web 18 are provided. At the central web 16, a printed circuit board 14 is provided with light-emitting diodes 13 attached thereto. This printed circuit board 14 can be attached to both surfaces of the central web 16 as described above. The lateral webs 17, 18 of the light carrier have insertion grooves 19 for receiving a lens optics 15. This lens optics 15 is shown in Fig. 6c dargesteilt.
    The inventive design of the light carrier 10, this can be mounted in two different positions in the lamp housing 4, as shown in Fig. 6a and Fig. 6b. While the light emitting diodes in the position shown in FIG. 6a have a Abstrahlwinkef of about 45 °, the Abstrahlwinket extended in the opposite mounting position to about 120 ° and in conjunction with an optical screen 21 in opal and satin finish up to 300 °. By simply varying the mounting position of the light carrier so the beam angle of the lamp can be changed or adapted to the situation. 10 Λ
    50355 Ag / Fl Unique Lights CEE GmbH * »» · ** I · *
    * ♦ · * ·· «P • * * * l · * · t I«
    In addition, by influencing the LenseriöptiV 15 further influencing the emission characteristic (in particular a reduction of the emission angle, ie focusing) can be achieved, as shown in Fig, 6c.
    Fig. 7a - 7b show a schematic representation and a cross section of another embodiment of the mounting device according to the invention in the assembly of two parallel light housings. In this case, the mounting profile 2 is rotated by 90 ° mounted on the substrate 3. It is thereby achieved that a plurality of lamp housing 4 can be mounted side by side on a mounting profile 5.
    Fig. 8 shows a schematic cross section through a further embodiment of the mounting device according to the invention. In this case, two lamp housing 4 are mounted directly next to each other.
    9 shows a schematic representation of a detail of an embodiment of the mounting device according to the invention. The figure shows the printed circuit board 14 with light-emitting diodes 13 mounted thereon. The printed circuit board 14 has several parts and has plug connectors 24. The circuit board 14 has attachment openings 25 for attachment to the light carrier 10, wherein this attachment is made detachable, to allow the subsequent replacement of the circuit boards 14.
    10a-10c show further schematic cross sections through an exemplary embodiment of the mounting device according to the invention with different lens optics 15.
    The invention is not limited to the illustrated embodiments, but of course includes other embodiments of the invention. In particular, the invention is not limited to the use of light-emitting diodes as light-emitting means, but any other light-emitting means may be used. 11 Λ
    50355 Ag / Fl Unique Lights CEE GmbH * «ι ·« * «4 *
    List of Reference Signs: ··:! **! · Mounting fixture 2 Mounting protector 3 Background 4 Luminaire housing 5 Connecting element 6 Opening in luminaire housing 8 First slide-in grooves of luminaire housing 9 Insert rails 10 Light support 11 First side bar of luminaire housing 12 Second side bar of luminaire housing 13 Light-emitting diodes 14 Circuit board 15 Lens optics 16 Middle bridge of light carrier 17 First side bar of the light carrier 18 Second side bar of the light carrier 19 Slide-in grooves of the light carrier 20 Second slide-in grooves of the light housing 21 Optical shield 22 Attachment means 23 Radiation angle 24 Plug connection 25 Attachment opening 26 Cover cap 27 Top 28 Bottom
    权利要求:
    Claims (18)
    [1]
    12 X)) 50355 Ag / Fl Unique Lights CEE GmbH Claims Φ · ι # ··· * · Φ · Φ4Φ ΜΙ ··· «*» ♦ · · 4 ft »*« · · * t Φ «< 1. Mounting device (1) for a luminaire, comprising at least one mounted on a substrate (3) mounting profile (2) and at least one luminaire housing (4), characterized in that the mounting profile (2) and the lamp housing (4 ) pairs recesses {6, 7) for releasably securing a, the mounting profile (2) with the lamp housing (4) connecting the connecting element (5).
    [2]
    2. Mounting device (1) according to claim 1, characterized in that the recesses (6, 7) is designed with a substantially C-shaped cross-section and the connecting element (5) with a substantially dumb-shaped cross-section, and the connecting element (5) in an exact fit the recesses (6,7) can be inserted.
    [3]
    3. Mounting device according to claim 1 or 2, characterized in that the lamp housing (4) first insertion grooves (8) for receiving a slide-in strips (9) running light carrier (10).
    [4]
    4. Mounting device according to claim 3, characterized in that the lamp housing (4) is designed as a U-shaped profile with two side bars (11,12), wherein the insertion grooves (8) on the inner surfaces of the side webs (11, 12) are.
    [5]
    5. Mounting device according to claim 3 or 4, characterized in that the light carrier (10) for receiving a light sources, in particular light-emitting diodes (13), provided printed circuit board (14) or an LED tube is set up.
    [6]
    6. Mounting device according to one of claims 3 to 5, characterized in that the light carrier (10) for receiving a lens optic (15) or rod optics is executed. 7. Mounting device according to Claim 5, characterized in that the light carrier (10) is in the form of a U-shaped profile with a central web (13). 13 50355 Ag / Fl 16) and two lateral webs (17,18) is executed, wherein the circuit board (14) has fastening openings (25) and on one of the two surfaces of the central web (16) is detachably fastened with fastening means.
    [7]
    8. Mounting device according to claim 6, characterized in that on the inner sides of the lateral webs (17,18) of the light carrier (10) insertion grooves (19) for receiving the lens optics (15) or the rod optics are provided.
    [8]
    9. Mounting device according to one of claims 3 to 8, characterized in that the light carrier (10) in a first and a second, by the height of the central web (16) different mounting position on the lamp housing (4) can be mounted.
    [9]
    10. Mounting device according to one of claims 1 to 9, characterized in that the lamp housing (4) has insertion grooves (20) for receiving an optical screen (21).
    [10]
    11. Mounting device according to one of claims 1 to 10, characterized in that the Montageprofii (2) for receiving two or more parallel light housing (4) is executed.
    [11]
    12. Mounting device according to one of claims 1 to 11, characterized in that the mounting device is designed in lengths of 30 cm to 300 cm and with radiation angles of 30 ° to 300 ° Mounting device according to one of claims 1 to 12, characterized in that the lamp housing (4) is designed to accommodate a power supply. 13. 14 14 50355 Ag / Fl Unique Llghts CEE GmbH ****** * * * · ** ·· i «* + + + <->« * «* ·
    [12]
    14. Mounting device according to 'a'der claims 1 to 13, characterized in that the lamp is designed as an LED tube.
    [13]
    15. Mounting device according to one of claims 1 to 12, characterized in that the substrate (3) is designed as an existing housing of a fluorescent tube.
    [14]
    16. Mounting device according to claim 15, characterized in that the housing used as a substrate (3) comprises the power supply of the lamps used.
    [15]
    17. Mounting device according to one of claims 1 to 16, characterized in that for fastening the mounting profile (2) on the substrate (3) fastening means (22) are provided.
    [16]
    18. Mounting device according to one of claims 6 to 17, characterized in that lens optics (15) or rod optics are provided with different emission characteristics.
    [17]
    19. Mounting device according to one of claims 1 to 18, characterized in that on the end faces of the lamp housing (4) cover caps (26) are provided.
    [18]
    20. Mounting device according to one of claims 1 to 19, characterized in that the mounting profile (2), the lamp housing (4) and the light carrier (10) are made of a metal or a plastic.

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    同族专利:
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    引用文献:
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    US20100103657A1|2008-10-24|2010-04-29|Chien-Chen Teng|Custom assembly light-emitting module|
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    法律状态:
    2019-04-15| MM01| Lapse because of not paying annual fees|Effective date: 20180811 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA1162/2011A|AT511794B1|2011-08-11|2011-08-11|MOUNTING DEVICE FOR A LIGHT|ATA1162/2011A| AT511794B1|2011-08-11|2011-08-11|MOUNTING DEVICE FOR A LIGHT|
    PCT/EP2012/065657| WO2013021042A1|2011-08-11|2012-08-10|Installation device for a luminaire|
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