• 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:
    A profiled luminaire system with at least one profiled luminaire (1) is described which has lamps (11) and at least one connector (50) integrated in the profiled luminaire (1), wherein the at least one connector (50) has a plug (4), a socket (5) and a plurality of poles, wherein the poles each contact pins (22-32) and contact blades (60-7 0) are assigned, in the mated state of the plug (4) and socket (5) electrically conductive contacts between the individual contact blades (60-7 0) and the respective corresponding contact pins (22-32) form, wherein the at least one connector (50) is arranged such that an insertion direction of the at least one connector (50) substantially parallel to the orientation of the emitting light the lamps (11) of the profile lamp (1) is aligned.
    公开号:AT515246A2
    申请号:T885/2014
    申请日:2014-12-10
    公开日:2015-07-15
    发明作者:
    申请人:H4X E U;
    IPC主号:
    专利说明:

    Profile lighting system and assembly method for it
    Technical area
    The present invention relates to a profile lighting system and a mounting method therefor.
    Background of the invention
    There are linear lighting systems for large rooms, such as Offices or halls or department stores whose luminaires form a line over several meters. Such lighting systems can be connected in series with two-pole connectors with a plug-in direction parallel to the longitudinal extent of the linear lamp.
    There are so-called standardized low-voltage RJ Modular Western connectors for telecommunications transmission equipment. These are usually 2-, 4-, 6- or 8-pin and designed for a DC voltage between 5 volts and 12 volts. The connectors are cuboidal.
    Disclosure of the invention
    Against this background, it is an object of the present invention to provide an improved profile lighting system with a mounting method.
    This object is achieved by a profile lighting system with the features of claim 1. The dependent claims relate to particularly preferred embodiments.
    One idea of the invention is to design profile lights, preferably with LEDs, in such a way that they can be mounted and dismounted as simply as possible from a permanently wired power supply and current control, in particular if a profile light has defective lamps. Profile luminaires currently available on the market are fixed to wires either suspended or flush-mounted or in suspended ceilings. A disassembly of profile lights, especially when they are arranged in rows one behind the other to form lines, is extremely difficult and expensive. For hanging profile lights assembly and disassembly is understandably easier, but often support profiles are required, which can be omitted in hanging variants of the invention. In the case of ceiling installation variants and ceiling construction variants, on the other hand, assembly / disassembly is correspondingly more difficult. The invention thus provides even greater efficiency in the latter applications. In all applications, the invention enables particularly compact designs.
    It is thus an idea of the invention to provide a profile lighting system with at least one profile luminaire, which has lamps, so that the profile luminaire is easy to assemble and disassemble, whereby a previously defined wiring remains unaffected. An inventive profile lighting system has at least one connector in the profile light integrated with a plug and a socket and with several poles, wherein the poles each contact pins and contact blades are assigned, the electrically conductive in the assembled state of the plug and socket
    Make contacts between the individual contact blades and the respective corresponding contact pins. Thus, only a first part of the plug is firmly connected to the feeder cables and the complementary second part of the connector is arranged on the profile lamp. Due to the connector profile luminaires can now be easily replaced without the supply wires must be dismantled and assembled by a skilled electrician, as well as sorted and specified according to their functions.
    Thus, the profile lights, which are individually interchangeable in a long row over several meters, for example, in halls or offices or department stores, without affecting the non-exchangeable profile lights, the connectors are arranged with sockets at the front end of the profile lamp such that an insertion direction of the Connector extends substantially parallel to the orientation of the emitted light of the lamps of the profile lights. The insertion direction is thus formed perpendicular to a longitudinal extension of the profile lamp and / or parallel to the direction of attachment of the profile lamp on or in a ceiling wall.
    More preferably, the profile lighting system is formed with at least two connectors described above and at least one profile lamp, wherein at the ends of the profile light front side, the connectors are arranged. In arrangements with line-shaped profile lights with more than one profile light two adjacent, arranged in line profile lights with connector in housed in the ends of the profile lights sockets are connected. Thus, a simple and quick installation and a later replacement of the profile lights is very easily possible by the Ste cker be solved by the socket without a complex rewiring by an electrician must be performed, and without having to ensure again that the right Connection cable must be connected correctly to the new profile light.
    In order to use the profile lamp with the at least one connector multifunctional, is preferably formed at least one connector with more than two poles, in particular five poles, more preferably eleven poles. Thus, in addition to conventional lamp control, it is not only possible to simply energize the lamps, but also to operate loudspeakers in the profile lamps via poles arranged in parallel and to control different colors or emergency lights via their own poles.
    It has proven to be advantageous that the connector is formed substantially cuboid. Both the plug and the socket receiving the plug are preferably cuboid. Such connectors can be produced cost-optimized.
    Preferably, the contact blades of the at least one connector are formed extending parallel to the insertion direction. The electrical contact safety is thus better ensured. Moreover, it is advantageous that the connector for high voltage voltages, in particular from about 110 volts to about 230 volts, is designed. Lamps that are dimensioned for high-voltage voltages can thus be controlled directly.
    According to a further embodiment, the plug with the socket, in particular on both sides, securable, in particular screwed and / or latched and / or magnetically formed by means of magnets securable. This ensures that even with a mechanical load on the connector, the electrical contact between plug and socket is maintained. A magnetic fuse promotes the connector during assembly. A screw connection, especially on both sides, is a secure connection against high mechanical loads.
    So that the connector is accurately reproducible, the plug or socket in one embodiment, at least two centering pins in the insertion direction may have frontally engageable in complementary recesses of the socket or the plug. In this case, the plug with the complementary socket on both sides of the front of the cuboid connector each comprise a groove engaging in a longitudinal rail.
    According to a particular embodiment, the plug comprises springs designed as contact blades for spring action for generating the electrical contact. The socket comprises the contact pins.
    According to an alternative embodiment, in order to protect the flexible contact blades with spring action in a housing against external influences, these are arranged on or in the socket. They are thus protected in a socket housing. The plug includes the contact pins with guide rails on the housing for the contact blades in the socket.
    According to a further embodiment of the invention, the plug is formed as an inverted L-profile, in particular with a front plate cover attached thereto, more preferably for arrangement in each case as a front end of a profile lamp. The seen in the side view L-profile has the advantage that the cover plate can serve as a cover for the connector. The connector can basically be arranged at any location on a profile lamp. Preferably, the connector is arranged on the front end profile ends. This has the advantage that the connector can be positively inserted into the end faces of an elongated profile body. The profile body is made for example of an aluminum profile. Furthermore, a coupling of several profile lights is thus easily possible, as shown below.
    For this purpose, the plug is particularly preferably formed as a connector, in particular in the form of TT-profiles with two longitudinal rails. The longitudinal rails are each frontally engageable in complementary grooves in each case a socket to ensure a load-bearing connection of two linearly arranged in series profile lights. Thus, identical profile lights with sockets at the front ends can be used either as either end pieces or intermediate end pieces, with only the plug is designed either as a connector or as a final terminator.
    According to one embodiment, the connector can fill a mechanical support function for the at least one profile lamp. In this case, the connector can be designed so massive that it is capable of carrying the essential weight load of the profile lamp in the room.
    More preferably, the socket and the plug are dimensioned so as to form a respective end face with its length in an elongated profile lamp with a profile width of 50-120 mm, in particular 60 mm, form-fitting insertable and final form. This design is required to realize high voltage applications in the range of 220-230 volts.
    More preferably, in each case a housing of the plug and the socket made of a solid metal material, in particular cast aluminum, wherein in particular the contact blades are arranged in a plastic insert insulating, which are guided by insulating plastic rails complementary. The plastic cloth rails include embedded, sliding contact pins. The plastic rails are formed on an insulating complementary plastic insert in the housing of plug or socket accordingly.
    According to the invention, the plastic insert with the contact blades, preferably perpendicular to the extension of the contact blades, has receiving openings corresponding to the number of contact blades, in order to receive strands of connection cables in a force-locking manner. Thus, the plastic insert with the contact blades serves as an adapter for the strands of the connection cable with respect to the connector.
    Likewise, the plastic insert with the contact pins preferably perpendicular to the sliding insertion direction on the corresponding opposite side receiving openings corresponding to the number of contact pins to receive strands of connecting cables frictionally secured. The non-positive locking can be done in both cases beispielswei se by means of springs or fittings. Thus, also here the plastic insert with the contact pins serves as an adapter for connection cables, which are provided either by the power supply or control supply for the profile lights or the corresponding consumers, such as the lamps.
    More preferably, the connector from the profile lighting system are designed so massive that from these connectors a load of at least one profile lamp is auf-nehmbar, the profile lamp a profile body of an aluminum extruded section, a direct room lamp with an LED lamp module, which on a circuit board comprises arranged LEDs and (for example, in the profile body clipped) aperture, such as PMMA, before it.
    In addition, the profile lamp can have an indirect room lamp with an LED lamp module, which comprises LEDs arranged on a circuit board and an aperture arranged above it. Due to the solid connectors a rigid line connection between the profile lights is ensured, so that the connectors can compensate for irregular loads. The profile lighting system with direct and indirect room lighting can thus be arranged suspended in the room. Furthermore, the profile lights can thus be regularly cleaned easily or replaced when lamps should not work.
    According to an embodiment further developing the profile lighting system is formed with a carrier profile with which the profile light is receivable. Thus, the profile lighting system according to the invention can be installed positively in de ckenwände or suspended ceilings when the support profile is installed flush.
    In order to match the brightness of several arranged profile luminaires in the profile lighting system, each profile luminaire preferably comprises an adjustment device, in particular a rotary switch with which the brightness of the LED lamp modules integrated in the profile luminaire can be adjusted via the voltage and / or the current intensity. This is particularly necessary because the brightness changes when a single LED, which is arranged with other LEDs on a board, has become inoperative and as a result the other LEDs on the board shine a little brighter. In addition, the brightness performance of each LED decreases with increasing life.
    The object of the invention is also achieved by an assembly method of the above-described profile lighting system with connectors described above, that in each case one end of a profile lamp a plug of the connector described above is inserted into a socket, for example, in an insertion direction parallel to the orientation of the profile lights emitted light passes. For this purpose, a corresponding socket can be arranged on each end face of the profile lights.
    This assembly process can be carried out automatically by robots, for example, due to the simple connection geometry. In one embodiment, the mounting method may further include concealing the plug with a fastenable lid at the front. The lid can either be attached directly to the plug or it can be screwed by means of a screwdriver on the profile body of the profile lamp or on the solid socket. By means of this mounting method, an easy assembly and disassembly of a profile lamp without major electrical expertise is possible.
    Brief Description of the Drawings Embodiment examples of the invention are illustrated in the drawings and explained in more detail in the following description.
    Illustrate it
    Fig. 1 is a perspective end view of a profile light with an inserted socket at the front end;
    Fig. 2 is a perspective view of Fig. 1;
    3 shows a sectional view in the direction of the profile end with the socket inserted;
    Fig. 4 is a perspective view corresponding to
    Fig. 2;
    5 shows a plug with frontal cover.
    Fig. 6 shows the plug of FIG. 5 in the perspective
    Top view with inserted connection cables;
    7 is a perspective view of the not yet built ver connector.
    8 shows a perspective bottom view of an assembled profile end;
    Fig. 9 is a profile lamp in perspective view without the lid of the plug;
    Fig. 10 is an end of a profile lamp in the assembled
    Status;
    11 is a perspective profile view of a profile light in the assembled state.
    Fig. 12 is a perspective view of a TT plug;
    13 is a perspective bottom view of a TT
    Plug;
    Fig. 14 is a perspective view of a filleuchte on a Pro used TT connector;
    Fig. 15 is another perspective view with two
    Profile lights before assembly;
    Fig. 16 two profile lights connected by means of a TT connector;
    FIG. 17 is a perspective view of FIG. 16 from below; FIG.
    FIG. 18 is a view of FIG. 16 with the lid attached; FIG.
    19 is a perspective sectional view of a profile light with a profile coat. and
    20 is an end view of FIG. 19.
    Fig. 1 shows a perspective front view of a profile lamp 1. The profile lamp 1 comprises a profile body 2, which is made of an aluminum extruded section. In this extruded aluminum profile, a recess 3 is incorporated in each case at the profile end rectangular in the upper laterally directed to the ceiling side wall. The recess 3 serves to receive a plug 4 shown in the following figures in a socket 5.
    The bushing 5 comprises a housing 6, which is made of a cast aluminum, in particular aluminum die-cast, and adapted in a form-fitting manner to the dimensions of the inner profile of the profile body 2, so that a secure hold of the bushing 5 in the profile body 2 consists. The housing 6 comprises supporting legs 7 and 8 and a groove 9 in the bottom in order to positively receive a groove profile of the profile body 2. The groove profile serves to receive a circuit board 10 with LEDs 11 for a direct room lamp. In the housing 6 is a plastic holder 13, which may for example also be made of cast aluminum, used. The plastic holder 13 forms together with respective end strips 14 and 15 grooves 16 and 17, so that the plug 4 can be safely guided in the socket 5.
    For accurately fitting connection of the socket 5 and the plug 4, two symmetrical holes 18, 19 and a center groove 20 are formed in the housing bottom of the socket 5. Form-fitting in the plastic holder 13 in turn by end-side rails in tongue and groove construction, a plastic insert 21 is used. The plastic insert 21 comprises eleven line-shaped contact pins 22-32, which are protected and embedded by plastic rails 34-45, for an 11-pin socket connection. The KunstStoffhalter 13 further comprises on the top two symmetrically arranged threaded holes 46 and 47. By means of the threaded holes 46, 47 and the complementary inserted over it plug 4, the connector can be screwed from above.
    The top of the box-shaped profile body 2 has - as shown in Fig. 3 by way of example centered centrally a trough 51 with profiled grooves formed on both sides, in the secured a board 52 with LEDs 53 is inserted to produce an indirect room light 54 of the profile lamp 1. The wall of the profile tank 51 forms on both sides symmetrically two further profile grooves 55 and 56, in which a shutter 57 shown in FIG. 3 of the indirect room lamp 54 can be inserted.
    FIG. 2 shows a further perspective view of the end of the profile lamp 1 with the socket 5 inserted. It can be seen that the rails 34-45 of the contact pins 22-32 are tapered towards the top, to complementary contact blades shown in FIG Grip 60-70 of connector 4 with contact pins 22-32.
    FIG. 3 shows a sectioned profile lamp 1 in the direction of the profile end, so that the rear side of the profile lamp 1 of FIG. 1 is visible. The rectangular bushing 5 with a cuboidal housing 6 has centrally rectangular recesses 58, so that an access for strands of connecting cables (not shown) in receiving openings 72-82 of the plastic insert 21 can be inserted. Thus, the plastic insert 21 forms an adapter for the strands of the connection cable. FIG. 3 further shows that an aperture 84 for the lamps 11 on the board 10 is inserted into two-sided grooves of an inner profile of the inner walls of the profile body 2 for direct room lighting. For indirect ceiling lighting, an indirect room light 54 with board 52, LEDs 53 and aperture 85 is provided on the side facing the ceiling.
    FIG. 4 shows the profiled luminaire 1 in a perspective view, seen from the front side, in the embodiment of FIG. 3 with the indirect room luminaire 54.
    Figs. 5 and 6 show perspective views of a plug 4 of the connector. The connector is designed for high voltages of about 110 volts to about 230 volts and, as shown in Fig. 5, preferably 11-pole. For this purpose, the plug 4 comprises a plug housing 86, which may be made of cast aluminum, into which in turn a plastic insert 87 is inserted, which acts insulating and carries the electrical contact blades 60-70. Perpendicular to the contact blades 60-70 in the plastic insert 87 are shown in the following figures receiving openings 88 to 98th
    The housing 86 of the plug 4 comprises frontally on both sides of two pronounced as rails 101 and 102 highlights, which protrude from grooves 103, 104. These engage complementary in the grooves 16, 17 of the socket 5 in Fig. 1, which engage by distinct strips 15 and 15 in the complementary formed grooves 103, 104 of the plug 4 to mechanically hold the plug 4 in the socket 5 , To improve the position accuracy nubs 107 and 108 engage in the bores 18, 19 of the socket 5. Likewise, the projection 109 of the plug 4 fits into the formed semicircular groove 20 of the socket 5, wherein in turn a threaded hole 110 is formed in the projection 109 to fix the plug 4 from the bottom to the socket 5. The plug 4 is frontally designed as an inverted L with a lid 111. The lid 111 in turn has two holes 112 and 113 to screw them with complementary threaded holes 46 and 47 in the plastic holder 13.
    Fig. 6 shows the plug 4 in the perspective plan view, wherein on the plug 4, a front-side cover cover 114 and a lid 115 is in turn L-shaped mounted in parallel on the upper side. The lid 115 has a bore 116 to supply connection cable for the plug 4.
    Fig. 7 shows the profile body 2 with the socket 5 before an assembly of the plug 4 with the socket 5 of the connector. It can be seen that in contrast to conventional existing profile lights no complicated Neuverkabelungsaufwand needs to be operated by an electrician, in which the individual leads must be redetermined when they are reconnected to the profile lamp 1. An exchange of individual profile lights 1 is thus easily possible. The profile lighting system according to the invention thus comprises a profile lamp with lamps and at least one connector.
    Fig. 8 shows in a perspective view from below the end of a profile lamp 1, wherein the plug 4 is screwed by means of a screw 117 in the profile basin 51 on the profile body 2 and the socket 5. Furthermore, the board 10 of the direct room lamp 12 with the LEDs 11 is clearly shown.
    Fig. 9 shows in a perspective view of the end of a profile lamp 1 from the side in a plan view. Here, the lid 114 of the top is not yet used, so that the receiving openings 88-98 are visible for receiving a total of eleven strands of connecting cables. These receiving openings 88-98 offer inside the plastic insert 87 non-positive fuses, which can be secured either by means of springs or a screw connection. Flush with the receiving side of the receiving openings 88-98 of the lid 111 of the plug 4 is installed. The front-side cover 114 of FIG. 6 terminates the profile body 2 of the profile lamp 1.
    FIG. 10 shows the profiled luminaire 1 from FIG. 8 with the attached cover 114 on the upper side of the profiled luminaire 1.
    11 shows a further perspective view of the closed box of the profile lamp 1 from the front side in the direction of the longitudinal extent.
    FIGS. 12 and 13 show another embodiment of the plug 4, which is designed as a TT connector plug 100. Again, receiving openings 88-98 are formed on the upper side, but in the cuboid plastic insert 87 on both sides contact blades 60-70 are arranged so that two ends of profile lights 1 with arranged sockets 5 can be connected together in series.
    The connector 100 is therefore formed in the frontal profile view in a TT-shape. The lid 111 now comprises four holes for fixing two screws in two different sockets 5. The knobs 107, 108 are performed twice at the bottom of the connector 100, as well as the threaded holes 46, 47 in the recess, as shown in FIG. 14 is shown in a perspective view from below.
    Fig. 13 shows the TT connector 100 inserted into the socket 5 at the profile end of the profile lamp 1. FIG. 14 also shows how the TT connector 100 can be plugged into sockets 5 of profile luminaires 1 arranged in series without having to operate a large amount of cabling.
    14 shows the assembled state of two profile lights 1 and 121, wherein the connector 100 is cuboid-shaped and the length parallel to the arrangement of the contact blades substantially corresponds to the inner width of a profile body 2, for example between 50 mm and 120 mm, preferably 60 mm.
    FIG. 16 shows a perspective view of the connecting cutout from FIG. 15 from below. FIG. It shows that the plug 100 is fixed with a screw 117 on the first profile lamp 1 and with another screw 118 on the second profile lamp 121 from below, wherein on the second profile lamp 121 is already an aperture 119 clipped for a direct room lighting 120.
    In Figs. 17 and 18, the TT connector 100 is shown in more detail.
    FIG. 19 shows a perspective view of the profiled luminaire 1 according to the invention in a sectional view, with this figure merely showing that the profiled body 2 can be inserted into a carrier profile 122 in order to clip the profiled luminaire 1 into the carrier profile 122 in a form-fitting manner. The support profile 122 is flush mounted on a ceiling wall or a suspended ceiling.
    FIG. 20 shows the profile lamp 1 according to FIG. 19 in a side view.
    Although the present invention has been described in detail with reference to various embodiments, modifications and further developments of the connector and the profile lighting system can be made without departing from the spirit of the invention.
    LIST OF REFERENCE NUMERALS 1 profile light 2 profile body 3 recess 4 plug 5 socket 6 housing 7 legs 8 legs 9 slot 10 board 11 LEDs 12 direct room light 13 plastic holder 14 bar 15 bar 16 slot 17 slot 18 hole 19 hole 20 center slot 21 plastic insert 22 contact pin 23 contact pin 24 contact pin 25 Contact pin 26 Contact pin 27 Contact pin 28 Contact pin 32 Contact pin 33 34 Plastic rail 35 Plastic rail 36 Plastic rail 37 Plastic rail 38 Plastic rail 39 Plastic rail 40 Plastic rail 41 Plastic rail 42 Plastic rail 43 Plastic rail 44 Plastic rail 45 Plastic rail 46 Threaded hole 47 Threaded hole 48 49 50 Plug connector 51 Profile basin 52 Circuit board 53 LEDs 54 Indirect room light 55 Profile groove 56 Profile groove 57 Panel 58 Recess 59 60 Contact blade 61 Contact blade 62 Contact blade 63 Contact blade 64 Contact blade 65 Contact blade 66 Contact blade 67 Contact blade 68 Con contact lamella 69 contact lamella 70 contact lamella 71 72 receiving opening 73 receiving opening 77 receiving opening 78 receiving opening 76 receiving opening 80 receiving opening 81 receiving opening 82 receiving opening 83 84 stop 85 stop 86 plug housing 87 plastic insert 88 receiving opening 89 receiving opening 90 receiving opening 91 receiving opening 92 receiving opening 93 receiving opening 94 Receiving opening 95 Receiving opening 96 Receiving opening 97 Receiving opening 98 Receiving opening 99 100 TT connecting plug 101 Rail 102 Rail 103 Groove 104 Groove 105 Groove 106 Groove 107 Groove 108 Groove 109 Groove 110 Threaded hole 111 Cover 112 Drill 113 Drill 114 Close cover 115 Cover 116 Drill 117 Screw 118 Screw 119 Panel 120 Direct room lamp 121 Second profile lamp 122 Carrier profile
    权利要求:
    Claims (21)
    [1]
    Claims 1. Profile lighting system with at least one profile lamp (1), which lamps (11) and at least one connector (50) integrated in the profile light (1), wherein the at least one connector (50) has a plug (4), a socket ( 5) and a plurality of poles, wherein the poles each contact pins (22-32) and contact blades (60-70) are assigned, in the mated condition of the plug (4) and socket (5) electrically conductive contacts between the individual contact blades (60 70) and the respectively corresponding contact pins (22-32) form, wherein the at least one connector (50) is arranged such that a direction of insertion of the at least one connector (50) substantially parallel to the orientation of the emitting light of the lamps (11) is aligned by the profile lamp (1).
    [2]
    2. Profile lighting system according to claim 1, characterized in that the profile lamp (1) has two connectors (50), wherein the connectors (50) are arranged at the front ends of the profile lamp (1).
    [3]
    3. profile lighting system according to claim 1 or 2, characterized in that the profile lamp (1) has at least one connector (50) with more than two poles, in particular five poles, particularly preferably eleven poles.
    [4]
    4. Profile lighting system according to one of the preceding claims, characterized in that the contact blades (60-70) of the at least one connector (50) are formed extending parallel to the insertion direction.
    [5]
    5. Profile light system according to one of the preceding claims, characterized in that the at least one connector (50) for high-voltage voltages, in particular of 110-230 volts, is designed.
    [6]
    6. profile lighting system according to one of the preceding claims, characterized in that the connector (50) is formed substantially guaderförmig.
    [7]
    7. profile lighting system according to one of the preceding claims, characterized in that the plug (4) with the socket (5) securable, in particular screwed and / or latched and / or magnetically secured, is formed.
    [8]
    8. Profile lighting system according to one of the preceding claims, characterized in that the plug (4) or the bushing (5) at least two in the insertion direction frontally formed, centering knobs or pins (102, 108) which in complementary formed recesses (18 , 19) of the socket (5) or the plug (4) are engageable, wherein the plug (4) on both sides of the front end of the connector with the complementary socket (5) in a groove (105, 106) engaging longitudinal rail (101 , 102).
    [9]
    9. Profile light system according to one of the preceding claims, characterized in that the plug (4) is designed as an L-profile, in particular with an attached end plate cover (111), for arrangement in each case as a front end of a profile lamp (1).
    [10]
    10. profile light system according to one of claims 1 to 8, characterized in that the plug (4) is designed as a TT connector (100), which is designed to be two profile lights (1, 121) be delay of the electrical conductive contacts in series connect to.
    [11]
    11. Profile light system according to one of the preceding claims, characterized in that the at least one connector (50) carries at least one profile lamp (1) mechanically.
    [12]
    12. Profile light system according to one of the preceding claims, characterized in that the socket (5) and the plug (4) are dimensioned such, each having an end face in an elongated profile lamp (1) with a profile width of 50-120 mm, in particular 60 mm , form-fitting used and finally form.
    [13]
    13. Profile lighting system according to one of the preceding claims, characterized in that in each case a housing (6, 86) of the plug (4) and the bush (5) are made of a solid metal material, in particular cast aluminum, wherein the contact blades (60-) 70) on a plastic insert (87) are arranged, which are guided by plastic insulating rails (34-45) complementary, wherein the plastic f rails (34-45) include embedded sliding contact pins.
    [14]
    14. profile lighting system according to claim 13, characterized in that the plastic insert (87) with the contact blades (60-70) perpendicular to the extension of the contact blades (60-70) receiving openings (72-83) corresponding to the number of contact blades (60-70 ) for the frictionally secured recording of strands of connecting cables.
    [15]
    15. profile light system according to one of the preceding claims, characterized in that the profile lamp (1) further comprises a profile body (2), which is made of an aluminum extruded profile, and a direct room lamp (120) arranged on a circuit board (10) LEDs (11 ) and a diaphragm (84).
    [16]
    16. Profile light system according to one of the preceding claims, characterized in that the profile light (1) has an indirect room light (54) arranged on a circuit board (52) LEDs and an aperture arranged above (85).
    [17]
    17. Profile light system according to one of the preceding claims, characterized in that two adjacent, arranged in series profile lights (1) with a connector (50) are connectable.
    [18]
    18. profile lighting system according to one of the preceding claims, characterized in that the profile lighting system comprises a carrier profile (122) with which the profile lamp (1) can be accommodated.
    [19]
    19. Profile light system according to one of the preceding claims, characterized in that the profile light (1) comprises an adjusting device, in particular a rotary switch, with which the brightness of the LEDs (11) is adjustable.
    [20]
    20. Method of mounting a profile lighting system according to one of claims 1 to 19, wherein in each case at the end faces of each profile lamp (1) a plug (4) in a socket (5) of an adjacent profile lamp (1) is inserted.
    [21]
    21. Assembly method according to claim 20, characterized in that the plug (4) with a cover (114) is concealed frontally.
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    同族专利:
    公开号 | 公开日
    AT515246B1|2018-12-15|
    AT515246A3|2017-10-15|
    DE102013226950A1|2015-06-25|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
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    申请号 | 申请日 | 专利标题
    DE102013226950.1A|DE102013226950A1|2013-12-20|2013-12-20|Profile lighting system and assembly method for it|
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