阅读说明：本技术 灯带系统 (Lamp belt system ) 是由 A·马哈特 于 2018-12-06 设计创作，主要内容包括：偏长形的灯带系统(1),具有：U形支撑型材(2)、在所述支撑型材(2)的底壁(20)与第二联接区域(4)之间的第一联接区域(3)、在所述支撑型材(2)的容纳空间(A)中的电源单元(5)、与所述电源单元(5)电接触并且与所述第二联接区域(4)可松开地机械联接的灯带灯体(6)和带有功能区(73)以及操作区(74)的电气或电子单元(7),其中所述功能区(73)与所述灯带灯体(6)相邻地安排并且所述操作区(74)在所述灯带灯体(6)与所述底壁(20)之间延伸,与所述电源单元(5)电接触以及与所述第一联接区域(3)可松开地机械联接。替代性地,在所述支撑型材(2)的所述侧壁(21,22)中的每一个上设置联接区域(3,4)中的每一个,用于机械可松开地联接所述灯带灯体(6)和所述单元(7)。(An elongate light strip system (1) having: a U-shaped support profile (2), a first coupling region (3) between a bottom wall (20) of the support profile (2) and a second coupling region (4), a power supply unit (5) in a receiving space (A) of the support profile (2), a light strip body (6) which is in electrical contact with the power supply unit (5) and is releasably mechanically coupled to the second coupling region (4), and an electrical or electronic unit (7) having a functional region (73) and an operating region (74), wherein the functional region (73) is arranged adjacent to the light strip body (6) and the operating region (74) extends between the light strip body (6) and the bottom wall (20), is in electrical contact with the power supply unit (5) and is releasably mechanically coupled to the first coupling region (3). Alternatively, each of the coupling regions (3,4) is provided on each of the side walls (21,22) of the support profile (2) for mechanically releasably coupling the light strip body (6) and the unit (7).)

1. A light strip system (1) extending in a longitudinal axis direction (L), the light strip system having:

an elongate support profile (2) with two elongate, facing side walls (21,22) and an elongate bottom wall (20) connecting the side walls (21,22), which together enclose a receiving space (A),

a first and a second mechanical coupling region (3,4), wherein the first coupling region (3) is arranged between the bottom wall (20) and the second coupling region (4) as seen in the longitudinal axis direction (L),

an elongate power supply unit (5) extending in the receiving space (A) in a longitudinal axis direction (L),

a lamp strip body (6) which extends in the longitudinal axis direction (L), is in electrical contact with the power supply unit (5) and is releasably mechanically coupled to the second coupling region (4), and

an electrical or electronic unit (7) having a functional region (73) and an operating region (74), wherein the functional region (73) is arranged adjacent to the lamp strip body (6) in the longitudinal direction (L), and wherein the operating region (74) extends from the functional region (73) at least partially between the lamp strip body (6) and the bottom wall (20), is in electrical contact with the power supply unit (5), and is releasably mechanically coupled to the first coupling region (3).

2. A light strip system (1) extending in a longitudinal axis direction (L), the light strip system having:

an elongate support profile (2) with two elongate, facing side walls (21,22) and an elongate bottom wall (20) connecting the side walls (21,22), which together enclose a receiving space (A),

a first and a second mechanical coupling region (3,4), wherein the first coupling region (3) is arranged on the side of one of the side walls (21) and the second coupling region (4) is arranged on the side of the other side wall (22) as seen in the longitudinal axis direction (L),

an elongate power supply unit (5) extending in the receiving space (A) in a longitudinal axis direction (L),

a lamp strip body (6) which extends in the longitudinal axis direction (L), is in electrical contact with the power supply unit (5) and is releasably mechanically coupled to the coupling regions (3,4), and

an electrical or electronic unit (7) having a functional region (73) and an operating region (74), wherein the functional region (73) is arranged adjacent to the lamp strip body (6) in the longitudinal direction (L), and wherein the operating region (74) extends from the functional region (73) at least partially between the lamp strip body (6) and the bottom wall (20), is in electrical contact with the power supply unit (5), and is releasably mechanically coupled to the coupling region (3, 4).

3. A light strip system (1) according to claim 1 or 2, wherein the first and/or second coupling region (3,4) extends in the longitudinal axis direction (L) in the receiving space (a), preferably over the entire length of the support profile (2).

4. A light strip system (1) according to any of the preceding claims, wherein said first and/or said second coupling region (3,4) is provided on at least one and preferably both side walls (21,22) or on said power supply unit (5), preferably integrally formed therewith.

5. A light strip system (1) according to any of the preceding claims, wherein the first and/or the second coupling region (3,4) is formed by a profile region of the side wall (21,22) or power supply unit (5), such as a clamping profile, or a recess in the side wall (21,22) or in the power supply unit (5), such as a punched hole.

6. A light strip system (1) according to any of the preceding claims, wherein the light strip body (6) has a second coupling element (66) corresponding to the second coupling region (4) and preferably additionally also to the first coupling region (3) for mechanical coupling to the second coupling region (4) and preferably additionally also to the first coupling region (3) and/or

Wherein the electrical or electronic unit (7) has a first coupling element (76) corresponding to the first coupling region (3) and preferably additionally also to the second coupling region (4) for mechanical coupling to the first coupling region (3) and preferably additionally also to the second coupling region (4),

wherein the coupling regions (3,4) in combination with the respective coupling elements (66,76) preferably permit a sliding movement of the lamp strip body (6) or the electrical or electronic unit (7) in the longitudinal axis direction (L).

7. A light strip system (1) according to claim 6, wherein the first and/or second coupling element (76,66) has a garter spring laterally pre-tensioned with the respective coupling region (3,4), said garter spring having a first garter section (760,660), preferably an outwardly protruding V-shaped garter section, wherein the first garter section (760,660) cooperates in a garter manner with a corresponding second garter section (30,40) of the respective coupling region (3,4) to provide said mechanical coupling.

8. A light strip system (1) according to any of the preceding claims, wherein said light strip body (6) extends between said two side walls (21,22), preferably completely between said two side walls (21, 22).

9. A light strip system (1) according to any one of the preceding claims, wherein said light strip body (6) is preferably defined, preferably covering said support profile (2), on a side (23) opposite to said bottom wall (20).

10. A light strip system (1) according to any one of the preceding claims, wherein the functional region (73) extends between the two side walls (21,22), preferably completely between the two side walls (21, 22).

11. A light strip system (1) according to any one of the preceding claims, wherein the functional region (73) rests flush and preferably without play against the light strip body (6) in the longitudinal axis direction (L) to define or cover the support profile (2) without play, in particular preferably on a side (23) opposite the bottom wall (20).

12. A light strip system (1) according to any one of the preceding claims, wherein said power supply unit (5) is arranged between said bottom wall (20) and said first coupling region (3) and preferably on said bottom wall (20), or

Wherein the power supply unit (5) is arranged on at least one or both side walls (21,22), for example as a bus bar leading to a rotary tap.

13. A light strip system (1) according to any of the preceding claims, wherein said light strip body (6) has a first electrical contact element (67) and said electrical or electronic unit (7), preferably said operating zone (74), has a second electrical contact element (77), wherein said first and second electrical contact elements (67,77) preferably adopt the same structure.

14. A light strip system (1) according to claim 13, wherein the first electrical contact element (67) extends in a first direction of extension in a region between the light strip body (6) and the bottom wall (20), preferably projects from the light strip body (6) into the receiving space (a) up to the power supply unit (5).

15. A light strip system (1) according to claims 13 and 14, wherein the second electrical contact element (77) extends in a second direction of extension in a region between the light strip body (6) and the bottom wall (20), preferably extends convexly from both sides of the operating region (74) with reference to the direction of extension, and preferably protrudes at least from the operating region (74) into the receiving space (a) up to the power supply unit (5).

16. A light strip system (1) according to any of the preceding claims, wherein the light strip body (6) and/or the electrical or electronic unit (7) has a swivel body (69,79) with a laterally projecting gripping protrusion (690,790) rotatably arranged around a swivel axis (X), which swivel body is movable by rotation of the swivel body (69,79) around its swivel axis (X) between a moved-in mounting position for inserting the light strip body (6) or the electrical or electronic unit (7) into the support profile (2) and a moved-out position for co-acting with the coupling regions (3,4) for mechanical coupling and/or with the power supply unit (5) for electrical coupling,

wherein the clamping tab (690,790) preferably has the coupling element (76,66) and/or the electrical contact element (67,77) for this purpose.

17. A light strip system (1) according to claim 16, wherein the light strip body (6) and/or the electrical or electronic unit (7) each have at least two rotational bodies (69,79), wherein at least one of the rotational bodies (69,79) does not have a grip tab (690,790) for the electrical coupling, wherein preferably the mechanical coupling permits a sliding movement of the light strip body (6) or the electrical or electronic unit (7) in the longitudinal axis direction (L).

18. A light strip system (1) according to claim 16 or 17, wherein the rotator (69,79) has a rotary manipulator (692,792) for rotating the rotator (69,79) around its axis of rotation (X),

wherein the rotary manipulator (692,792) preferably extends radially one or more-preferably two-sided away from the axis of rotation (X), further preferably is centered or coaxially or symmetrically or asymmetrically arranged as seen with reference to the axis of rotation (X), and/or

Wherein the rotary manipulator (692,792) is arranged axially movable with reference to the axis of rotation (X) in order to move the rotary manipulator (692,792) between a working position and a loading position.

19. A light strip system (1) according to any one of the preceding claims, wherein the support profile (2) has a substantially U-shaped cross-section seen in a longitudinal axis direction (L), preferably the bottom wall (20) and the two side walls (21,22) of the support profile (2) form a substantially U-shaped cross-section seen in a longitudinal axis direction, and/or wherein the open side (23) of the support profile (2) opposite to the bottom wall (20) forms a light output side through which the light strip body (6) and the electrical or electronic unit (7) can be inserted into the support profile (2) to mechanically couple with the respective coupling area (3, 4).

20. A light strip system (1) according to any one of the preceding claims, wherein the light strip body (6) has an electronic component, such as for example a handling means (65), on its side facing the receiving space (a), which electronic component is preferably arranged at a distance from the oppositely situated end faces (68) of the light strip body (6) in the longitudinal direction (L) and particularly preferably in the middle of the light strip body (6), wherein the light strip body (6) preferably has the second coupling element (66) in the form of a clamping spring in the area between at least one of the end faces (68) and the electronic component.

21. A light strip system (1) according to any of the preceding claims,

wherein the operating region (74) has oppositely disposed end faces in the longitudinal direction (L), and the functional region (73) is arranged in the region of one of the end faces or at a distance from both end faces of the operating region (74) with reference to the longitudinal direction (L).

22. A light strip system (1) according to any of the preceding claims,

wherein the electrical or electronic unit (7) has a light body, such as a spotlight (72) or an emergency light, a sensor (70), such as a PIR sensor, an AC/DC converter (71), a camera module, such as a surveillance camera module, a wireless local area network module, a scanner, a projector, a laser projector, surveillance electronics, a data transmission system, a plug adapter (71) for connecting electrical or electronic components (711,713,715), or the like,

wherein the functional area (73) has functional components of the electrical or electronic unit (7), such as, for example, a lamp head or a spotlight head (720), preferably with a spotlight barrel (721), a sensor head (700,715), a connection socket (710,712,714), such as a USB-C socket, a wireless local area network antenna (713), a camera head (711), etc., and

wherein the operating area (74) has operating components of the electrical or electronic unit (7), such as, for example, an operating device (740), a light control device, a sensor processing unit, an AC/DC converter unit, etc.

23. A light strip system (1) according to any one of the preceding claims, wherein the light strip body (6) is multi-segment formed in the longitudinal axis direction (L), wherein preferably at least several adjacent sections of the light strip body (6) abut each other flush in the longitudinal axis direction (L) and preferably without gaps, wherein at least between two sections of the light strip body (6) a functional area (73) of an electrical or electronic unit (7) is arranged.

24. A light strip system (1) according to any one of the preceding claims, wherein the support profile (2) is multi-segment formed in the longitudinal axis direction (L).

25. A light strip system (1) according to any of the preceding claims, wherein the light strip body (6) has a body component, in particular a luminaire (60), such as an LED module, for light output and preferably additionally an optical element (63) for influencing the light output by the luminaire (60), and wherein the light strip body (6) additionally preferably also has a light strip holder (64) supporting the body component and preferably additionally the second coupling element (66) and/or the first electrical contact element (67).

26. A light strip system (1) according to any one of the preceding claims, wherein the light strip body (6) is formed substantially planar on its outer side (F) facing away from the receiving space (A) and preferably ends substantially flush with a side (23) of the support profile (2) opposite to the bottom wall (20), and/or

Wherein the functional region (73) is formed substantially flat on its side (S) facing away from the receiving space (A) and preferably ends substantially flush with a side (23) of the support profile (2) opposite the bottom wall (20) and preferably also with an outer side (F) of the flat surface of the light strip body (6).

27. A light strip system (1) according to any one of the preceding claims, wherein said first mechanical coupling area (3) and/or said second mechanical coupling area (4) have a plurality of coupling areas in planes at different distances with reference to said bottom wall (20).