CZ309995B6 - An equipment and a method for setting a headlamp reflector - Google Patents

Abstract

The invention applies to an equipment and a method for setting a headlamp for motor vehicles including an adjustable screw (4), a static part and a sliding part, where the static part contains a parabolic-type reflector and the sliding part contains a LED module (2), a cooler (5) and a diaphragm (7).

Description

Apparatus and method for adjusting a headlight reflector

Field of technology

The invention relates to a device and a method for adjusting the headlight reflector for motor vehicles.

Current state of the art

New vehicle lighting systems increase the comfort and, above all, the safety of drivers. Modern headlights must be adapted to meet the spatial requirements for the placement of various types of lights (low beam, main beam, marker lights, lights for asymmetric lighting, etc.). However, with these new additional functions, the requirements for headlight settings, such as positioning, increase.

Currently, xenon or semiconductor light sources are increasingly used, which have more specific requirements for the space inside the headlight compared to older types of light sources (e.g. halogen light sources). Semiconductor light sources in particular have very specific requirements for the placement of both cooling, which is necessary for the correct operation of the headlight, and printed circuit boards, which are essential for the function of this type of light source.

The correct and simple setting of the direction of light propagation from reflectors, respectively headlights, is a crucial technical condition for the success of a given type of headlight on the market. With regard to design requirements that increasingly emphasize the minimalism of the overall concept of headlights, it is necessary to solve this technical requirement in such a way as to achieve the most efficient system for adjusting the headlights in such a way that only a small handling space will be required, thus clearly and without doubt meets the minimum building space requirement.

The granted patent AT 514403 solves the centering of the headlight using several members, such as positionable screws or springs. In this way, the light cone can be moved in two directions, between the left and right side of the headlight when viewed from the front. The result is the positioning of the headlight, or rather the cone of light, on a cylindrical surface, which is obviously a significant limitation of the solution, as positioning on a spherical surface is necessary for the correct and effective adjustment of the headlights.

Application DE 102012111312 allows the panel with the LED module to be positioned in relation to the other components of the headlight. Positioning of the LED module is realized by a lever arm, thanks to which it is possible to position the LED module in defined positions. The defined positions are given by the stabilization grooves of the locking component. The disadvantage of this solution is the possibility of rotating the LED module only to a finite number of defined positions. Another shortcoming is the location of the lever arm, which is located from the back of the headlight, which complicates handling. This solution also places increased space demands on the area of the rear part of the headlight, as considerable free space is needed to handle the lever arm.

In the patent application DE 102012106313, the positioning of the light cone emerging from the headlight, which uses a semiconductor light source, is used by changing the angle of the reflector. The semiconductor light source together with the cooling and circuit board is located on a movable bracket capable of moving in the z-axis, i.e. in the up and down direction when looking at the headlight from the front. At the same time, a reflector is also attached to the movable bracket, which is fixed on a movable threaded pin, which enables the angle between the reflector and the bracket to be changed. A change in the angle between the reflector and the console naturally also results in a change in the angle of incidence of the light emitted from the semiconductor source on the reflector, which is inherently related to a change in the angle of light reflection, which appears as a change in the tilt of the light cone. The fundamental disadvantage of such a solution is

- 1 CZ 309995 B6 significant demands on the space inside the headlight, as it is necessary to move all internal parts during the adjustment (positioning) of the headlight.

A similar solution is offered by patent application WO 201409185, in which the reflector is attached to the light and cooling source in a fixed position. This assembly is attached to the supporting frame by means of a swivel joint. Positioning is carried out precisely by means of a rotary joint. Although the solution brings the positioning of the light cone on a spherical surface, it also brings very high demands on the space inside the headlight.

The essence of the invention

To a certain extent, the above deficiencies are overcome by a headlight reflector adjustment device comprising an adjustable screw, a static part, and a sliding part, wherein the static part includes a parabolic mirror and the sliding part includes an LED module and a heat sink, and the device further includes an aperture that is slidable together with the sliding part . The advantage of this invention is that the sliding part is slidably connected to the static part.

The device for adjusting the headlight reflector preferably also includes an adjustable screw by which the static part and the sliding part are connected.

The screw of the headlight reflector adjustment device can preferably be adjusted manually or by an electric motor.

The sliding portion of the headlight reflector adjustment device may further include a printed circuit board connected to the LED module.

Another advantage of the device for adjusting the headlight reflector may be that the sliding part is movable at least in the horizontal direction with respect to the static part.

A preferred method for adjusting the headlight reflector, which includes an adjustable screw, a static part, and a sliding part, wherein the static part includes a parabolic mirror, and the sliding part includes an LED module and a heat sink, and the sliding part is slidably connected to the static part, and at the same time, the static part and the sliding part are connected by an adjustable screw, consists in the fact that the beam generated by the LED module is reflected from the parabolic mirror, while the sliding part is adjustable to the first position and to the second position, while in the first position of the sliding part the beam hits the parabolic mirror in the first place, while in the second position of the sliding part, the beam hits the parabolic mirror in a second place, the second place of incidence being higher than the first place of incidence.

Clarification of drawings

The essence of the invention is further clarified by examples of its realization, which are described using the attached drawings, where on:

Figure 1 shows a side view of the headlight reflector with the basic elements marked;

Figure 2 shows a front view of the headlight, which is composed of five reflectors.

Examples of implementation of the invention

Figure 1 shows a side view of a headlight reflector with a marked light beam 6. The reflector is divided into a static part, which includes a parabolic mirror 1 and a sliding part,

- 2 CZ 309995 B6, which in this embodiment contains an LED module 2, a printed circuit board 3 and a cooler 5. The reflector also includes an aperture 7, which is movable together with the sliding part and serves to limit the rays 6 generated by the LED module 2, mainly in the direction against the indicated z-axis. Both parts are connected by an adjustable screw 4 with a small displacement, which allows the relative positioning of both parts, while the sliding part is movable relative to the static part in an approximately horizontal direction in the direction of the z-axis. The light beam 6 generated by the LED module 2 is reflected from the parabolic mirror 1 .The LED module 2 is controlled by a circuit board 3 which is connected to the car's control unit. The printed circuit board 3 is located under the LED module 2 and together with it, they are located in the immediate vicinity of the heat sink 5, which prevents them from overheating. By changing the position of the movable part of the reflector relative to the static part of the reflector, the place of impact of the light beam 6 on the parabolic mirror 1 changes, thereby changing the height at which the light beam 6 leaves the reflector while maintaining a constant direction of its propagation from the light source to the parabolic mirror 1. Change of position of the sliding part to the static part can be done manually or it can be controlled automatically when the screw 4 with fine displacement is attached to the electric motor. In advantageous embodiments, the LED module 2 can be formed by one or more LEDs. In the present embodiment, the screw nut 4 is located in the static part. In other embodiments, the screw nut 4 may be located in the sliding part. The device on the sliding part further includes a single-sided diaphragm, projecting upwards, which is located between the LED module 2 and the parabolic mirror 1. This diaphragm limits the range of light emitted by the LED module 2 towards the parabolic mirror 1.

Figure 2 shows a front view of the headlight, consisting of five reflectors. Each reflector is divided into a static part, which contains a parabolic mirror 1, and a sliding part, which contains a heat sink 5, in the immediate vicinity of which the LED module 2 and the printed circuit board 3 are located. By rotating the adjustable screw 4 with fine displacement, the sliding part of the reflector is displaced in the direction of the axis from the Cartesian system. This displacement causes a change in the height of the light beam 6 incident on the parabolic mirror 1 in the y-axis, thereby changing the height in the y-axis at which the light beam 6 exits the reflector.

Claims (6)

1. A device for adjusting a headlight reflector comprising an adjustable screw (4) and a static part, wherein the static part includes a parabolic mirror (1), wherein the device further includes an aperture (7), characterized in that the device further includes a sliding part that includes an LED module (2) and cooler (5), wherein the sliding part is slidably connected to the static part, and the shutter (7) is sliding together with the sliding part. 2. The device for adjusting the headlight reflector according to claim 1, characterized in that it further includes an adjustable screw (4), wherein the static part and the sliding part are connected by the adjustable screw (4). 3. Device for adjusting the headlight reflector according to claim 2, characterized in that the screw (4) is adjustable manually or by an electric motor. 4. The device for adjusting the headlight reflector according to any one of the preceding claims, characterized in that the sliding part further includes a printed circuit board (3) connected to the LED module (2). 5. Device for adjusting the headlight reflector according to any one of claims 1 or 2, characterized in that the sliding part is movable in the horizontal direction with respect to the static part. 6. A method for adjusting a headlight reflector using a device for adjusting a headlight reflector according to any one of claims 2 to 5, characterized in that the beam (6) generated by the LED module (2) is reflected from the parabolic mirror (1), the sliding part being a rotation adjustable screw (4) adjustable to the first position and to the second position, while in the first position of the sliding part the beam (6) falls on the parabolic mirror (1) in the first place, while in the second position of the sliding part the beam (6) falls on the parabolic mirror ( 1) in the second place, whereby the second place of impact is located higher than the first place of impact.