ILLUMINATION DEVICE AND MOUNTING METHOD

Abstract

An illumination device for a vehicle, having a housing in which a functional module and an actuating unit are arranged, wherein the actuating unit has a drive apparatus and a linear actuating element that is coupled to the functional module so that the functional module can be pivotably moved about a horizontal and/or vertical axis, wherein the drive apparatus is placed in contact with at least one circuit board integrated in the illumination device in a mounted position of the actuating unit so that both the drive apparatus of the actuating unit and the functional module are electrically connected by the same circuit board to an electrical system of the vehicle.

Claims

1. An illumination device for a vehicle, the illumination device comprising: a housing; and a functional module and an actuating unit being arranged in the housing, the actuating unit having a drive apparatus and a linear actuating element that is coupled to the functional module so that the functional module is adapted to be pivotably moved about a horizontal and/or vertical axis, the drive apparatus being placed in contact with at least one circuit board integrated in the illumination device in a mounted position of the actuating unit so that both the drive apparatus of the actuating unit and the functional module are electrically connected by the same circuit board to an electrical system of the vehicle.

2. The illumination device according to claim 1, wherein a housing of the actuating unit has contacts on an outside that rest against terminal contacts of the circuit board in the mounted position of the actuating unit.

3. The illumination device according to claim 1, wherein a plate-like support is provided, and wherein the circuit board is arranged between the plate-like support and a flat housing wall of the actuating unit.

4. The illumination device according to claim 1, wherein the plate-like support has an aperture through which a fastening device of the actuating unit engages for material-to-material or interlocking and/or frictional connection of the housing of the actuating unit to the plate-like support.

5. The illumination device according to claim 1, wherein the actuating unit has a bayonet lock component as a fastening device so that the actuating unit is adapted to be brought into the mounted position by a linear and rotary motion.

6. The illumination device according to claim 1, wherein the actuating unit has as fastening device, a latching element that is inserted into the aperture and whose barbed ends engage behind the plate-like support in the mounted position of the actuating unit, and wherein the actuating unit is brought into the mounted position by a linear motion alone.

7. The illumination device according to claim 1, wherein the circuit board has an opening aligned with the aperture of the plate-like support, through which the fastening element of the actuating unit passes.

8. An illumination device for a vehicle, the illumination device comprising: a housing; and a functional module and an actuating unit arranged in the housing, wherein the actuating unit has a drive apparatus and a linear actuating element that is coupled to the functional module so that the functional module is adapted to be pivotably moved about a horizontal and/or vertical axis according to claim 1, wherein the circuit board is populated with electrical components of the actuating unit, and wherein the housing of the actuating unit has a recess so that, in the mounted position of the actuating unit, a coupling exists between the electrical components of the actuating unit and a mechanical component of the actuating unit that is fastened within the housing of the actuating unit.

9. The illumination device according to claim 8, wherein the housing of the actuating unit has a guide on an inside in such a manner that the housing of the actuating unit is brought into the mounted position by linear motion, wherein a pinion of the drive apparatus engages in a gear of a mechanical component, implemented as a transmission, of the drive apparatus of the actuating unit.

10. The illumination device according to claim 1, wherein the circuit board is fastened to the plate-like support.

11. A method for mounting an actuating unit in a housing of an illumination device, the method comprising: fastening the actuating unit to a plate-like support; and arranging a circuit board of a functional module between the plate-like support and a housing wall of the actuating unit so that an electrical connection to a wiring harness powered by a vehicle electrical system exists via conductive traces of the circuit board in the mounted position of the actuating unit.

12. The method according to claim 11, wherein the actuating unit is moved in a straight line into the mounted position in which contacts arranged on the outside of a housing wall of the actuating unit make contact with terminal contacts arranged on the circuit board of the functional module, and wherein the actuating unit is connected securely to the plate-like support substantially simultaneously with the contact being made with the contacts of the actuating unit.

13. The method according to claim 11, wherein the actuating unit is moved in a straight line into a mounted position on the plate-like support and/or into a contact position on the circuit board of the functional module and then, for the purpose of securing, is rotated into the mounted position in which contacts arranged on the outside on the housing wall of the actuating unit make contact with terminal contacts of the functional module.

14. The method according to claim 11, wherein only a housing of the actuating unit provided with mechanical components is moved in a straight line into the mounted position in which electrical components of the actuating unit arranged on the circuit board engage in the housing of the actuating unit through a recess in the same, and wherein at least one electrical component of the actuating unit is coupled to a mechanical component of the actuating unit.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus, are not limitive of the present invention, and wherein:

[0023] FIG. 1 is a schematic representation of an electrical and mechanical connection of an actuating unit to a circuit board or support of a functional module according to a first embodiment,

[0024] FIG. 2 is a schematic representation of an electrical and mechanical connection of an actuating unit to a circuit board or support of a functional module according to a second embodiment, and

[0025] FIG. 3 is a schematic representation of an electrical and mechanical connection of an actuating unit to a circuit board or support of a functional module according to a third embodiment.

DETAILED DESCRIPTION

[0026] An illumination device for vehicles is preferably designed as a headlight, which is arranged in a front end region of the vehicle. At least one functional module is arranged in a housing of the illumination device, wherein the functional module is implemented as an actuator and/or preferably as a light module, wherein the light module can fulfill different lighting functions such as, e.g., indicator light, low beam, high beam, and daytime running light functions. The light module includes a light source unit as well as an optical unit associated with the same. The light source unit includes a number of semiconductor-based light sources, preferably LED light sources, which are arranged on a circuit board 1. In the present exemplary embodiment, the circuit board 1 of the functional module is tightly fixed to a plate-like support 2, which can serve, for example, as a cooling device for cooling the light sources arranged on the circuit board 1. Alternatively, the circuit board 1 can also merely rest flat against the plate-like support 2.

[0027] An actuating unit 3 serves to adjust the functional module about a horizontal and/or vertical axis. The actuating unit 3 includes a drive apparatus 4 and a linear actuating element 5 that is coupled to the functional module and is linearly adjustable by means of the drive apparatus 4. One end of the linear actuating element 5 has a coupling part 6 for connection to a housing of the functional module so that a pivoting of the functional module about a horizontal and/or vertical axis is ensured by means of the linear adjustment of the linear actuating element 5. The coupling between the linear actuating element 5 and the housing of the functional module can be accomplished by, for example, a ball-and-socket connection that is known per se.

[0028] The circuit board 1 shown in the figures can have a number of light sources and electrical components for controlling the light sources. Alternatively, the circuit board 1 can have only the electrical components for controlling the light source. The light source in this case would be arranged on another circuit board via appropriate contacts.

[0029] According to a first embodiment of the invention in accordance with FIG. 1 and according to a second embodiment in accordance with FIG. 2, a housing 7 of the actuating unit 3 has, on a side of housing wall 8 facing the plate-like support 2, contacts 9 (preferably two contacts), which are electrically connected to terminal contacts 10 of the circuit board 1 in a mounted position of the actuating unit 3. For this purpose, the preferably two terminal contacts 10 of the circuit board 1 are arranged on a side facing away from the plate-like support 2 or on a side of the circuit board 1 facing the housing 7 of the actuating unit 3.

[0030] According to the first embodiment of the invention in accordance with FIG. 1, the actuating unit 3, 3′ has a bayonet lock as fastening device 11 for mechanically connecting said actuating unit to the plate-like support 2. The plate-like support 2 has an aperture 12 so that the bayonet lock 11 engages in the aperture 12 of the support 2 after linear motion of the actuating unit 3′ in a direction 13 perpendicular to the plate-like support 2, and, after rotation of the same about an axis of the linear motion direction 13, assumes a locking position in which the actuating unit 3′ is tightly connected mechanically to the plate-like support 2. Simultaneously with mechanical fixation, the contacts 9 of the actuating unit 3′, which can be designed as, for example, spring contacts or sliding contacts, are pressed in an electrically conductive manner onto the appropriately arranged terminal contacts 10 of the circuit board 1. The terminal contacts 10 of the circuit board 1 are electrically connected by conductive traces (not shown) to terminal contacts that preferably are arranged at an end of the circuit board 1 and are electrically connected to a voltage, for example a voltage of an electrical system of the vehicle, by a plug contact element arranged at an end of a wiring harness or cable harness. An electrical connection of the actuating unit 3′ to the electrical system of the vehicle is therefore accomplished in a simple manner by the additional conductive traces on the circuit board 1. The actuating unit 3′ is connected to the plate-like support 2 in an interlocking and frictional manner by the bayonet joint 11.

[0031] In the present exemplary embodiment, the contacts 9 of the actuating unit 3′ are arranged at both sides of the fastening device 11 so that the circuit board 1 has an opening 14 with a dimension such that the fastening device 11 of the actuating unit 3′ can pass through without play. The opening 14 is preferably dimensioned larger than the aperture 12 of the plate-like support 2.

[0032] According to a second embodiment of the invention in accordance with FIG. 2, an actuating unit 3, 3″ is provided that differs from the actuating unit 3′ of the first embodiment in that the mechanical fastening of the actuating unit 3″ to the plate-like support 2 is accomplished by means of a latching connection. For this purpose, the actuating unit 3″ has two latching elements 15 designed as latching arms, the barbed ends 16 of which engage behind the plate-like support 2 in the mounted position of the actuating unit 3″. The plate-like support 2 has two apertures 17, arranged at a distance from one another, through which the latching arms 15 can engage. The circuit board 1 has at least one opening 18 so that at least one of the latching arms 15 can reach the locking engagement position on the plate-like support 2 without play. Preferably, the latching arms 15 are arranged at edges of the housing wall 8 that rests at least partially against the circuit board 1.

[0033] The same components or component functions of the exemplary embodiments are labeled with the same reference symbols.

[0034] Advantageously, the actuating unit 3″ can be brought into the mounted position solely by a linear motion in the direction 13, which increases the level of automation for mounting of the actuating unit 3, 3″.

[0035] According to a third embodiment of the invention in accordance with FIG. 3, an actuating unit 3, 3′″ is provided in which electrical components 19 are already arranged on the circuit board 1 of the functional module. Only mechanical components of the actuating unit 3′″, for example a transmission, are located in the housing 7 of the actuating unit 3′″ to be mounted. Shown by way of example in FIG. 3 are a potentiometer 20 and an electric motor 21 of the drive apparatus 4 of the actuating unit 3m. The circuit board 1 is preferably populated with additional electrical components 19 of the actuating unit 3m.

[0036] Only a mechanical connection takes place during mounting of the actuating unit 3′″ on the plate-like support 2, since the electrical components 19 of the actuating unit 3m are already arranged on the circuit board 1. For this purpose, the housing 7 of the actuating unit 3′″ has, on a side facing the plate-like support 2, a recess 22 with a dimension such that the electronic components 19 of the actuating unit 3′″ arranged on the circuit board 1 are arranged in the housing 7 of the actuating unit 3m when the same is in the mounted position. Preferably, the housing 7 of the actuating unit 3m has a guide, in particular guide rails, so that a guided linear motion of the housing 7 into the mounted position of the actuating unit 3′″ is ensured. In the mounted position, a pinion (not shown) of the electric motor 21, for example, engages in a gear of the transmission permanently installed in the housing 7.

[0037] The mechanical fastening of the housing 7 of the actuating unit 3′″ is accomplished by means of latching elements 15 corresponding to the embodiment from FIG. 2.

[0038] The mounting of the housing 7 of the actuating unit 3′″ is accomplished solely by means of a linear motion in the direction 13.

[0039] According to an alternative embodiment of the invention, the mechanical connection of the actuating unit 3, 3′, 3″, 3′″ can also be accomplished in a material-to-material manner or solely in an interlocking manner.

[0040] The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are to be included within the scope of the following claims.