• 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 distributor connector arrangement (10) for a device carrier (100) of a continuous line luminaire, comprising first connection means (11) for connecting first lines of a first power supply circuit and second lines of a second power supply circuit of a device carrier (100), between the first power supply circuit and the second power supply circuit is provided with a converter unit (120) for electrically coupling the first and second power supply circuits; and second connection means (15) engageable with a supply connector assembly (50) to connect the first leads to an external power supply; and third connection means (17), which are engageable with a bridge connector assembly (60) of another device carrier, which are connected to first and / or second lines of the further device carrier to the first and / or second lines of the device carrier (100 ) to connect to the first and / or second lines of the further device carrier.
    公开号:AT15294U1
    申请号:TGM165/2015U
    申请日:2015-06-22
    公开日:2017-05-15
    发明作者:Bader Martin;Bechter Wolfgang;Wolfgang Gadner Ing
    申请人:Zumtobel Lighting Gmbh;
    IPC主号:
    专利说明:

    description
    DISTRIBUTION CONNECTOR ASSEMBLY FOR A DEVICE CARRIER OF A LIGHT BAND LAMP
    The present invention relates to a distribution connector assembly for a device carrier light strip light, a gear tray with such a distributor connector assembly, and a strip light with such a device carrier.
    A variety of different continuous line lights is known from the prior art. With continuous row luminaires or trunking systems, above all, large rooms (for example supermarkets, factory halls, office rooms, etc.) can be equipped with long lines of light adapted to these rooms. Usually, these continuous line luminaires have U-shaped strip lights, in which the wiring, the (control) electronics and the illumination means can be arranged.
    To simplify the assembly, it is also known to construct the continuous line lights as far as possible with modular units. For example, DE 20 2012 101 765 U1 discloses to arrange a first module in the form of a device carrier and a second module in the form of a luminous means carrier in a U-shaped light band rail.
    The equipment rack in this case has in particular a converter unit arranged thereon for the electrical coupling of the lighting means to the guided in the light strip light external power supply. In contrast, the luminous means carrier comprises the actual luminous means, for example LEDs or phosphor bodies.
    In practice, it has now been found that the provision of the necessary for the operation of the light strip light or the lighting system wiring of the individual modules with each other or the continuous line lighting is comparatively time consuming with each other and otherwise prone to error. Typically, during assembly of a continuous-row lighting system, which generally comprises a plurality of (single) continuous-line luminaires, at least contacting with an external power supply, electrical contact between the individual continuous-line luminaires and electrical contacting of the respective illuminant supports with the equipment carrier or with the equipment carriers become.
    Based on this prior art, the present invention has the object to provide a distributor connector assembly for a device carrier and a device carrier with such a distributor connector assembly, with which a mounting a light strip light or a lighting system is substantially simplified and with which significantly reduces the susceptibility of the wiring to errors.
    These and other objects, which will be referred to in the following description or may be recognized by those skilled in the art, are solved by the subject matter of the independent claims.
    A distributor connector assembly according to the invention for a device carrier of a continuous-line luminaire comprises at least: - first connection means for connecting first lines of a first Stromversor supply circuit and second lines of a second power supply circuit of a device carrier, wherein between the first power supply circuit and the second power supply circuit, a converter Unit is provided for electrically coupling the first and second power supply circuits; Second connection means engageable with a supply connector assembly to connect the first leads to an external power supply; [0011] Third connection means connected to a bridge connector arrangement of another
    Device carrier can be brought into engagement, which are connected to first and / or second lines of the further device carrier to connect the first and / or second lines of the device carrier with the first and / or second lines of the further device carrier.
    In other words, the present invention proposes to concentrate substantially all of the cabling needed on an equipment rack to a splitter connector assembly (ie, a single connector housing), which compares to the single cabling or the prior art common cabling customary use of multiple connector assemblies to a much improved clarity of the wiring, and thus leads to a significant simplification of the installation of a strip light. The distributor connector assembly with its at least three connection means is thus inventively formed by a single, this at least three connection means receiving, connector housing, wherein the connector housing is preferably provided from each other latchable plastic parts.
    Preferably, the first connection means is designed as a terminal block, in which the first and second lines can be received and clamped. The second connection means advantageously comprises socket elements into which correspondingly formed plug elements of the supply plug connector arrangement can be received in order to connect the first lines to an external power supply.
    Finally, it is advantageous that the third connection means also comprise bushing elements, in the correspondingly formed connector elements of the bridge-Steckver-binder arrangement are receivable to the first and / or second lines of the equipment carrier with the first and / or second lines of the connect further device carrier. By the third connection means and the bridge connector assembly thus a wiring of two adjacent equipment carrier can be made.
    Advantageously, latching elements are provided on the second connection means and / or on the third connection means in order to detachably connect the supply connector arrangement and / or the bridge connector arrangement to the distribution connector arrangement.
    Further, it is preferred that the distribution connector assembly comprises latching and / or abutment means to releasably connect the distribution connector assembly with the equipment carrier.
    Advantageously, the distributor connector assembly comprises at least two mutually latchable plastic housing parts. This makes it possible to introduce a first plastic housing part of the distributor connector assembly from the rear side to the equipment carrier and bring the second plastic housing part from the front to the equipment carrier, so that when a latching of the two plastic housing parts of the equipment carrier is clamped between them and thus captive is arranged between these.
    Further, it is preferred that the manifold connector assembly comprise at least one guide sleeve into which a ground contact element of the utility connector assembly is insertable to provide a ground connection between the supply connector assembly and the equipment carrier.
    Furthermore, the present invention relates to a device carrier for a continuous-line luminaire, comprising: - first lines for forming a first power supply circuit (with the external power supply circuit)
    Power supply); - Second lines to form a second power supply circuit (for Stromver supply of the individual lighting modules of the continuous-line luminaire); At least one arranged on the equipment carrier converter unit for electrical
    Coupling the first and second power supply circuits; At least one distribution connector assembly described above.
    Preferably, the first and second lines are connected to the first connection means of the distribution connector assembly, preferably such that the first lines and / or the second lines are arranged on the back of the device carrier, so that the first lines and / or the second lines are concealed in the assembled state to the continuous line luminaire by the equipment carrier.
    Furthermore, it is preferred that the device carrier has a substantially U-shaped cross section, wherein the first and / or second lines preferably within the U-shaped cross section of the device carrier (ie in the region of the two legs of the U-shaped Cross section is formed) are arranged. This makes it possible to arrange the lines in a protected by the U-shaped device carrier area, so that the cables can not be accidentally moved or damaged during transport or during assembly.
    Further, it is preferred that the first and second lines are already factory pre-assembled and secured captive on the equipment rack, so that no single wiring / cabling needs to be made when mounting a strip light. Advantageously, only connector assemblies (which may also be factory provided with the cabling) need to be connected to corresponding connector assemblies to provide complete cabling of the taillamp.
    Preferably, the equipment carrier is made of a metal sheet and particularly preferably provided as an integral punching and bending part.
    The converter unit is advantageously arranged on a front side of the device carrier. Under the front of the device carrier is the area of the device carrier to understand that is opposite to the lamp carrier in the mounted state. By contrast, the rear side of the device carrier is understood to mean the side of the device carrier which is directed towards the light rail (in the preferred embodiment of the device carrier having a substantially U-shaped cross section, this is the side on which the legs of the device carrier are formed).
    The first power supply circuit is connected to the external power supply of the continuous-line luminaire (in particular a conventional 230V mains supply), wherein the converter unit provides a usable for the lighting modules (in particular LED lighting modules) current-voltage ratio.
    Preferably, the distribution connector assembly is spaced from an edge of the equipment carrier. In this regard, it is further preferred that between the edge of the device carrier and the distribution connector assembly at least one fastening element for fixing the device carrier is arranged on a light rail. Such a configuration is particularly preferred because such an arrangement of manifold connector assembly and fastener free accessibility to the fastener is made possible (ie, no cables or connector assemblies must be removed to expose the fastener and the equipment carrier to this at a Lichtbandschiene or to fix a part of the building). In other words, there is the possibility that the cabling provided in the factory does not have to be removed during assembly, which leads to a considerable saving of time when mounting a continuous line luminaire.
    Advantageously, the second power supply circuit comprises at least one first connector arrangement arranged on the front side of the device carrier and designed to be engaged with a second connector arrangement arranged on a light source carrier, around the at least one light source carrier with the second power supply circuit connect to.
    Advantageously, only one converter unit is provided on the equipment carrier, with which the illuminant carrier or the illuminant carrier is / are connected in series, i. E. Starting from the converter unit, an electrical connection to the first connector assembly is made, which is engageable with a light source carrier, wherein the electrical connection is then either led back to the converter unit or to another first connector assembly to which a second light source carrier can be arranged is. In this case, an electrical connection is provided from the second first connector assembly back to the converter unit. As far as further first connector assemblies are provided on the equipment carrier, a connection is provided back to the converter unit accordingly of the last series-connected connector assembly, thereby closing the power supply circuit again.
    Advantageously, the first connector assembly is electrically connected to the back of the device carrier with the second lines. Furthermore, it is preferred that the converter unit is also electrically connected to the rear side of the device carrier with the first and second lines. This makes it possible to arrange the lines to the first connector assembly of the converter unit or the electrical lines to the first connector assembly or to the first connector assemblies such that they are not visible in the assembled state of the light rail, and thus the luminous impression of the strip light can not disturb. Additionally or alternatively, the lines can be partially arranged at least on the front of the device carrier.
    Furthermore, the present invention relates to a continuous-line luminaire comprising at least one device carrier described above with a distributor connector assembly described above.
    Hereinafter, a detailed description of the figures will be given. In the drawings: Figure 1 is a schematic view of a connector connector assembly connected to a supply connector assembly (without wiring) and a bridge connector assembly (without wiring); FIG. 2 is a further schematic view of the manifold connector assembly shown in FIG. 1; Figure 3 shows the distributor connector assembly shown in Figures 1 and 2 without
    Supply connector assembly and without bridge connector assembly; FIG. 4 shows the bridge plug connector arrangement shown in FIGS. 1 and 2; FIG. 5 shows a further schematic view of the bridge plug connector arrangement shown in FIG. 4; FIG. 6 shows a further schematic view of the bridge plug connector arrangement shown in FIGS. 4 and 5; Figure 7 is a schematic view of the supply connector assembly shown in Figures 1 and 2; Figure 8 is a schematic front view of a device carrier according to the invention; 9 is a schematic rear view of the device carrier of Figure 8.
    FIG. 1 shows a schematic view of a distribution connector assembly 10 connected to a utility connector assembly 50 and a bridge connector assembly 60.
    The distributor connector assembly 10 comprises first connection means 11, in the first lines of a first power supply circuit and second line of a second Stromver supply circuit of a device carrier can be connected / clamped.
    The distribution connector assembly 10 includes second connection means for connecting the supply connector assembly 50, wherein the second connection means are hidden in the view shown in Figure 1 by the supply connector assembly 50.
    Furthermore, the distribution connector assembly 10 includes third connection means which can be connected to the bridge connector assembly 60 to allow a contact with another device carrier. In the view shown in Figure 1, the third connection means are covered by the bridge connector assembly 60.
    As can be clearly seen in Figure 1, the first connection means 11 is formed by a terminal block, in which the first and second lines can be clamped. In the preferred embodiment, screw terminals 12 are provided on the first connection means in order to be able to provide a secure connection of the first and second lines to the first connection means 11.
    In the preferred embodiment shown, the distribution connector assembly 10 includes latching and abutment means 13 with which the distribution connector assembly 10 can be brought into abutment on a device carrier (see Figures 8 and 9). It is particularly preferred that the distributor connector assembly 10 is provided by at least two housing parts, wherein a housing part from a first side (preferably the back) can be brought to the equipment carrier and a second part of a second side (preferably from the front ) can be brought to the equipment rack until the latching and abutment means 13 engage and thus clamp the device carrier between the housing parts.
    The distribution connector assembly 10 further includes a guide sleeve 14 into which a ground contact element 51 of the utility connector assembly 50 is insertable to provide a ground connection between the supply connector assembly 50 and the equipment carrier. The supply connector assembly 50 further includes (clamp) receptacles 53 into which the wiring for the supply voltage can be fed.
    The supply connector assembly 50 and the bridge connector assembly 60 preferably have further latching means 52, 61 to which a light source carrier (not shown) is engageable.
    Figure 2 shows another schematic view of the manifold connector assembly 10 shown in Figure 1 with a utility connector assembly 50 and a jumper connector assembly 60. Like parts are designated by the same reference numerals.
    FIG. 3 is a schematic view of the manifold connector assembly 10 shown in FIGS. 1 and 2 with the utility connector assembly 50 and the jumper assembly 60 removed.
    As can be seen particularly well in Figure 3, the distribution connector assembly 10 includes on its front side (top) second connection means 15 to which the supply connector assembly 50 can be arranged to connect the first leads to an external power supply.
    For receiving the supply connector assembly 50, the second connection means 15 comprises female members (not shown) into which correspondingly formed male members (see Fig. 7) of the supply connector assembly 50 can be inserted.
    Furthermore, the second connection means 15 comprises guide and latching means 16 to allow insertion and locking of the supply connector assembly 50 in the second connection means 15.
    Adjacent to the second connection means 15, the distribution connector assembly 10 includes third connection means 17 for receiving the bridge connector assembly 60 of another device carrier to connect the first and / or second lines of a device carrier with the first and / or second lines of another device carrier to be able to. The third connection means 17 also comprises socket elements 18, into which plug elements (cf., FIG. 6) of the bridge plug connector arrangement 60 can be inserted. Furthermore, the third connection means 17 also comprises latching means 19, which can be brought into engagement with corresponding latching means of the bridge plug connector arrangement 60.
    Figures 4 to 6 show various views of the bridge connector assembly 60 to electrically connect the first and / or second lines of a device carrier with the first and / or second lines of another device carrier. As can be clearly seen in Figures 4 to 6, the bridge connector assembly 60 includes male members 62 which may be inserted into the correspondingly formed female members 18 (see Figure 3) of the manifold connector assembly 10. Furthermore, the bridge connector assembly 60 comprises (clamping) receptacles 63, in which the first and / or second lines of the further device carrier can be inserted and held.
    7 shows a schematic view of the supply plug connector arrangement 50. As can be clearly seen in FIG. 7, the supply plug connector arrangement 50 comprises plug elements 54 which can be inserted into correspondingly formed socket elements of the second connection means 15 (see FIG to provide a contact with the supply voltage can. The supply voltage is preferably provided by an electrical contact by means of the socket elements 53 of the supply connector assembly 50.
    FIG. 8 shows a schematic view of a first embodiment of a device carrier 100 according to the invention, the front side of the device carrier 100 being shown in FIG.
    The equipment carrier 100 has a substantially U-shaped cross-section and is substantially integrally provided from a metal sheet. Preferably, the device carrier 100 is formed as a stamped and bent part.
    On the front side (or upper side) of the device carrier 100, a first connector assembly 110 is arranged, which is designed to be engaged with a second arranged on a light source carrier (not shown) connector assembly to the lamp carrier with the power supply circuit connect to. Furthermore, a converter unit 120 and a distribution connector assembly 10 are arranged on the front of the device carrier 100.
    As can be seen in FIG. 8, lines 140 are guided laterally into the U-shaped device carrier 100 (more precisely in the region formed by the legs of the U-shaped device carrier 100) and extend back to the distributor Connector assembly 10 (see Figure 9). The lines 140 in this case comprise first lines for forming a first power supply circuit, which can be connected to an external power source and second lines for forming a second power supply circuit, with which the lighting means of a light source carrier (not shown) can be operated. The illuminant carrier is electrically connected to the second lines by means of the first connector assembly 110.
    In this case, the leads 140 are clamped in the first connection means 11 (cf., FIG. 1) of the distributor plug connector arrangement 10. In the second connection means 15, the supply connector assembly 50 is inserted to connect the first lines of the leads 140 arranged in the distribution connector assembly 10 to an external power supply. In the view shown in Figures 8 and 9, no bridge connector assembly of another device carrier is received in the third connection means 17.
    The first lines of the lines 140, which are connected via the supply connector assembly 50 to an external power supply, are guided on the back of the device carrier 100 into the converter unit 120. The converter unit 120 provides a current-voltage ratio that can be used by the light sources, which is conducted via the second lines of the lines 140 to the first connector arrangement 110. Furthermore, a plurality of holes 220 are provided in the device carrier 100 (in particular in the region in front of and behind the converter unit 120), by means of which the first lines can also be fed to the converter unit 120 on the front side or second lines can be led away from the converter unit 120.
    Finally, the device carrier 100 at least in an edge region comprises a fastening means 180, preferably in the form of a bending part (which is advantageously integrally formed with the device carrier 100) to which the equipment carrier 100 in a light rail track (not shown) can be attached.
    FIG. 9 shows a schematic view of the device carrier 100 from FIG. 8, the rear side of the device carrier 100 being illustrated in FIG.
    As can be clearly seen in FIG. 9, the lines 140 are laterally introduced on the rear side of the device carrier 100 and guided to the distributor plug connector arrangement 10 and accommodated therein in the first connection means 11 (preferably by means of corresponding clamping or screw connections). , The leads 140 (i.e., the first and second leads) are secured captive in the region formed by the legs of the U-shaped device carrier 100 by means of a plurality of attachment rails 200.
    As can also be clearly seen in FIG. 9, the leads 140 are connected to the converter unit 120 by means of terminals 210 (more precisely, the converter unit 120 is functionally arranged between the first and second leads).
    Further, a bridge connector assembly (not shown) is provided on the lines 140, in the area which extends beyond the device carrier 100, in order to be able to bring the lines 140 into engagement with a third connection means of a distributor connector arrangement of a further device carrier, to connect the lines 140 with another device carrier. As a result, it is possible to interconnect a plurality of device carriers 100 with one another, for example to use the converter unit 120 shown for operating a plurality of illuminant carriers or to use the external supply voltage provided to a device carrier 100 for a plurality of device carriers.
    By means of the device carrier 100 it is thus possible to be able to provide substantially all of the wiring (in particular the through-wiring, the wiring of the converter unit and the wiring of the first connector arrangement (s)) at the factory, in such a way that the wiring in the mounted state of the equipment carrier 100 are covered, so that a negative effect on the light impression is avoided.
    In addition, it can be prevented by the factory provision of the wiring, that a faulty wiring is made during assembly. Furthermore, it is possible to operate the lighting means only by a single converter unit or need only be provided as many converter units, as are necessary for the operation of the entire lighting system. In other words, it is possible to optimize the utilization of the respective converter units and therefore to reduce the number of converter units in the lighting system.
    Finally, the modules can be made of a comparatively inexpensive material (preferably as a sheet metal part) by the modular design of a strip light with a device carrier 10 described above, whereas the visible in the assembled state outer lamp housing are made of high quality of a visually appealing material can (for example, by aluminum castings). Overall, therefore, a continuous-line luminaire with a device carrier 10 can be produced more cheaply. In addition, the device carrier 10 described above can be used in a variety of different continuous band lights, so that there is also a cost advantage in this respect by the use of identical parts.
    The present invention is not limited to the above-described preferred embodiments as long as it is encompassed by the subject of the following claims. In particular, the present invention is not limited to the use of device carriers, each with only a first connector assembly. Rather, depending on the application, a plurality of illuminant carriers can be arranged on a device carrier which comprises a corresponding number of first connections.
    权利要求:
    Claims (10)
    [1]
    claims
    A distributor connector assembly (10) for a device carrier (100) of a continuous line luminaire, characterized in that the distributor connector assembly (10) comprises: - first connection means (11) for connecting first lines of a first power supply circuit and second lines of a second power supply circuit of a Device carrier (100), wherein between the first power supply circuit and the second power supply circuit, a converter unit (120) for electrically coupling the first and second power supply circuit is provided; - second connection means (15) engageable with a supply connector assembly (50) to connect the first leads to an external power supply; and third connection means (17) which can be brought into engagement with a bridge connector arrangement (60) of a further equipment carrier, which are connected to first and / or second lines of the further equipment carrier, around the first and / or second lines of the equipment carrier ( 100) to connect to the first and / or second lines of the further device carrier.
    [2]
    2. Distributor connector assembly (10) according to claim 1, characterized in that the first connection means (11) is designed as a terminal block; and / or that the second connection means (15) is formed with female members into which correspondingly formed male members (54) of the utility connector assembly (50) are receivable for connecting the first leads to an external power supply; and / or that the third connection means (17) is formed with female elements (18), in the correspondingly formed connector elements (62) of the bridge connector assembly (60) are receivable to the first and / or second lines of the device carrier (100) connect the first and / or second lines of the further device carrier; and / or latching elements (16, 19) are provided on the second connection means (15) and / or on the third connection means (17) in order to detachably connect the supply connector arrangement (50) and / or the bridge connector arrangement (60) the distributor connector assembly (10) to connect.
    [3]
    3. distributor connector assembly (10) according to claim 1 or 2, characterized in that the distributor connector assembly (10) latching and / or abutment means (13) to the distributor connector assembly (10) releasably connected to the equipment carrier (100 ) connect to; and / or in that the distribution connector assembly (10) includes at least one guide sleeve (14) into which a ground contact element (51) of the utility connector assembly (50) is insertable to provide a ground connection between the utility connector assembly (50) and the equipment carrier (100).
    [4]
    4. Equipment carrier (100) for a continuous-line luminaire, characterized in that the equipment carrier (100) comprises: - first lines for forming a first power supply circuit; - Second lines for forming a second power supply circuit; - At least one on the equipment carrier (100) arranged converter unit (120) for electrically coupling the first and second power supply circuit; - At least one distributor connector assembly (10) according to one of claims 1 to 3.
    [5]
    A device support (100) according to claim 4, characterized in that the first and second leads are connected to the first connection means (11) of the manifold connector assembly (10): and / or that the manifold connector assembly (10) is spaced from an edge the device carrier (100) is arranged, wherein in particular between the edge of the device carrier (100) and the distributor connector assembly (10) at least one fastening element (180) for fixing the device carrier (100) is arranged on a light rail.
    [6]
    6. Device carrier (100) according to any one of claims 4 or 5, characterized in that the first lines and / or the second lines are arranged on the back of the device carrier (100), so that the first lines and / or the second lines in mounted condition of the continuous line lighting by the equipment carrier (100) are concealed.
    [7]
    7. Equipment carrier (100) according to any one of claims 4 to 6, characterized in that the equipment carrier (100) has a substantially U-shaped cross-section.
    [8]
    8. Device carrier (100) according to claim 7, characterized in that the first lines within the U-shaped cross section of the device carrier (100) are arranged; and / or that the second lines are arranged within the U-shaped cross-section of the device carrier (100).
    [9]
    9. Device carrier (100) according to one of claims 4 to 8, characterized in that the second power supply circuit has at least one first on the front of the device carrier (100) arranged connector assembly (110) which is designed to be connected to a second on a Illuminant carrier arranged connector assembly to be brought into engagement to connect the at least one light source carrier to the second power supply circuit.
    [10]
    10. continuous-line luminaire, characterized in that the continuous-line luminaire comprises at least one device carrier (100) according to one of claims 4 to 9. For this 9 sheets of drawings
    类似技术:
    公开号 | 公开日 | 专利标题
    DE102007024422A1|2008-11-27|Luminaire and rail module
    AT13052U1|2013-05-15|DEVICE FOR CONNECTING AND CONTACTING AT LEAST ONE LED UNIT, AS WELL AS LED UNIT AND LIGHTING SYSTEM
    AT15294U1|2017-05-15|Distributor connector arrangement for a device carrier of a continuous line luminaire
    EP3165821B1|2018-07-04|Elongated light strip element
    AT516443B1|2017-04-15|Luminaire with contacting module
    DE202006006185U1|2007-08-30|Furniture
    DE3336817A1|1985-04-25|Plug-in system for electrical installations
    DE102012013434A1|2013-12-19|Device for strain relief and shield attachment for electrical plug connection unit in circuit board, has fixing element for fastening planar element with circuit board and reference potential
    EP3234458B1|2019-07-03|Device carrier for a strip-lighting luminaire
    DE19816391C2|2000-02-24|Door station of a door intercom
    EP3607614B1|2021-07-28|Method for implementing a wiring on a matrix of conductor connection devices
    AT12652U1|2012-09-15|DEVICE FOR MOUNTING AND CONTACTING A LIGHTING MEANS AND / OR A LIGHTING MODULE, AND LIGHT
    EP3234457B1|2018-11-28|Lighting-means carrier for a strip-lighting luminaire
    EP3235071B1|2020-02-05|Earthing connection between a device carrier and lighting means carrier for a strip lighting fixture
    CH681338A5|1993-02-26|Plug socket for relay or electronic circuit module - has termination section with internal contacts and plug-in element fitted to ends of lead wires
    EP3235072B1|2020-02-05|A device carrier and an illuminant carrier for a light strip luminaire
    DE2556136C3|1979-05-17|Assemblies, in particular for telephone switching systems
    DE102015007037B3|2016-07-21|Fuse box for line protection fuses of luminaires
    DE102015118376A1|2017-05-04|Busbar configuration
    DE4300535A1|1994-07-14|Electrical load-to-one-of-several voltage-sources connector for commercial vehicle
    AT15342U1|2017-06-15|Light source carrier for a continuous line luminaire
    DE7520845U|1977-09-29|Wiring harness
    DE20302920U1|2003-04-30|Adapter for contacting light system bus bar supply lines has opening into which bus bar can fit and into which contact elements protrude, circuit board to which contact elements are attached
    DE1962087U|1967-06-15|DISTRIBUTION PLATE FOR DISTRIBUTION BOXES, IN PARTICULAR MANIFOLD DISTRIBUTION BOXES.
    同族专利:
    公开号 | 公开日
    WO2016096888A1|2016-06-23|
    EP3235073A1|2017-10-25|
    DE202015105240U1|2016-03-21|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20030194884A1|2002-04-11|2003-10-16|Laukhuf Gregg E.|Electrical distribution block|
    AT13096U1|2011-10-17|2013-06-15|Tridonic Connection Technology Gmbh & Co Kg|DEVICE FOR CONTACTING ELECTRIC LADDERS AND / OR ELECTRICAL CONTACT ELEMENTS, AND LIGHT OR ELECTRICAL DEVICE|
    DE202012101765U1|2012-05-14|2013-08-19|Zumtobel Lighting Gmbh|DIN rail for mounting and powering several lighting modules, as well as a lighting system with such a mounting rail|
    AT14207U1|2013-12-19|2015-06-15|Tridonic Gmbh & Co Kg|Device for contacting electrical conductors and / or electrical contact elements, and light or electrical device|
    US6932495B2|2001-10-01|2005-08-23|Sloanled, Inc.|Channel letter lighting using light emitting diodes|
    US8241044B2|2009-12-09|2012-08-14|Tyco Electronics Corporation|LED socket assembly|
    DE102011017702A1|2011-04-28|2012-10-31|Zumtobel Lighting Gmbh|Trunking system and converter unit for this|
    DE102013203916A1|2013-03-07|2014-09-11|Zumtobel Lighting Gmbh|Luminaire with a LED light module|DE102016104355A1|2016-03-10|2017-09-14|Itz Innovations- Und Technologiezentrum Gmbh|Modular lighting device in the form of a light band and connection system therefor|
    法律状态:
    2022-02-15| MM01| Lapse because of not paying annual fees|Effective date: 20210630 |
    优先权:
    申请号 | 申请日 | 专利标题
    DE202014106094|2014-12-17|
    [返回顶部]