RU2758227C1 - Adaptive car head lamp - Google Patents

Abstract

FIELD: automotive industry.

SUBSTANCE: invention relates to automotive lighting technology. The adaptive head lamp contains a housing, an ellipsoid reflector, a condenser lens, an RGB LED, three stepper motors, respectively, for vertical, horizontal and longitudinal movement of the lens, and a fourth stepper motor. An increase in the accuracy and speed of lens movement, when creating the required light distribution, is provided by the longitudinal movement of its corners by motors placed at the corners of the rectangular headlight and connected to the lens by guides with ball mounts. One of the guides is one-piece and is a support, and the other three are prefabricated and consist of two parts with ball spring-loaded connections to create vertical and horizontal movements of the lens.

EFFECT: improvement of the light distribution of the roadway in the far, near and fog lights is achieved, depending on the position of the steering wheel at all speeds of the car.

1 cl, 3 dwg

Description

The invention relates to automotive lighting, and more specifically to the design of vehicle lighting devices, devices for adjusting and correcting the position of the light beam on the roadway, and can be used as an adaptive headlight in the headlight system of a car. The expected technical result in the implementation of the invention is an increase in the accuracy and speed of movement of the lens when creating the required light distribution in the modes of near, high, fog light and daytime running lights with sharp changes in speed, vehicle maneuver, weather conditions, as well as a timely reduction in glare during oncoming traffic junction. funds.

A device for adjusting the position of a light beam of a vehicle headlamp is known, including a light source, an ellipsoidal reflector, a fiber-optic image converter, and a lens. The process of adjusting the position of the light beam of the headlamp relative to the roadway is carried out by turning the fiber-optic image converter relative to the second focal point of the ellipsoidal reflector in the horizontal and / or vertical planes [1]. The disadvantages of this device include the impossibility of changing the width of the light beam depending on the speed and maneuver of the car, creating the required light distribution when weather conditions change, as well as dazzling vehicle drivers when passing oncoming traffic.

Closest to the claimed device is an adaptive head lighting system for a car [2], containing a body, an ellipsoidal reflector, a condenser lens, an RGB LED, three stepper motors for vertical, horizontal and longitudinal movement of the lens, respectively (figure 1), where: 1 - RGB LED, 2- reflector, 3 - fog light obturator motor, 4 - headlight housing, 5 - horizontal lens movement guides, 6 - vertical lens movement frame, 7 - condenser lens, 8 - vertical movement motor, 9 - horizontal lens movement frame, 10 - motor for horizontal movement of the lens, 11 - motor for low beam obturator, 12 - guides for longitudinal movement of the reflector, 13 - motor for longitudinal movement of the reflector.

The design of the headlamp allows the axial movement of the reflector to change the width of the light beam. The rotation of the light beam occurs by moving the lens in the horizontal plane, depending on the speed of movement and the position of the steering wheel. Although the system provides a change in the illumination of the roadway depending on the speed of movement and the position of the steering wheel, this is possible only at one speed of movement, since the radius of curvature of the surface of movement of the lens is rigidly set by the design of the headlight.

The proposed technical solution is aimed at improving the light distribution of the roadway at high, low and fog lights, depending on the position of the steering wheel at all vehicle speeds.

The expected technical result in the implementation of the proposed invention is an increase in the accuracy of the implementation of light distribution of high, low and fog lights, as well as an increase in road safety due to the absence of deformation of the light beam when changing the position of the steering wheel at all speeds.

This is achieved due to the fact that in the known head lighting system in a headlamp containing a housing, an ellipsoidal reflector, a condenser lens, an RGB LED, the movement of the lens along a spherical surface is replaced by a longitudinal movement of its corners.

Distinctive design features of the headlight to improve the accuracy of light distribution from the closest analogue is the introduction of an additional fourth stepper motor. In this case, all engines are located at the corners of a rectangular headlight and are connected to the lens by guides with ball mountings. One of the guides is solid and is supporting. The other three are prefabricated and are in two pieces with ball spring-loaded joints to create vertical and horizontal movement of the lens.

The design of the inventive adaptive headlamp and its section are shown in Fig. 2, where: 1, 16 - motors for longitudinal movement of the lens, 2, 15 - guides for longitudinal movement of the lens, 3 - RGB LED, 4, 14 - limiters for the guides of movement of the lens, 5 - reflector, 6 - motor for fog light obturator, 7, 13 - spherical spring-loaded joints of the guides, 8 - headlamp housing, 9, 11 - ball mounts of the lens, 10 - condenser lens, 12 - low beam obturator engine.

Due to the presence of these features in the design of the claimed device, the functional capabilities of the product have expanded, the above-described technical result has been achieved, which ultimately made it possible to solve the problem and improve the technical characteristics of the adaptive headlight of the vehicle.

The fundamental difference between the inventive headlight adaptive lighting from the prototype is the absence of a spherical surface of the lens movement, which allows you to create any radius of its rotation when turning the steering wheel at any speed. One of the guides 15 is solid and is the support axis when the lens moves in the vertical and horizontal planes. Spring-loaded ball joints 7, 13 in the remaining supports are necessary to ensure the movement of the lens in the vertical and horizontal planes due to a decrease in its projection onto the corresponding axes when the steering wheel is turned.

The essence of the invention in the case of oncoming passing vehicles is illustrated by the course of light beams when the steering wheel is turned, shown in FIG. 3.

The radius of the spherical surface of movement of the lens in the prototype is unchanged and is determined by the design of the headlight. It cannot be small, as this will not allow the large lens to be securely attached and not subject to vibration when driving on uneven roads. Therefore, when moving at any speed, the radius of movement of the lens will be large and equal to R 1, as shown in Fig. 3, a. This value of the radius allows you to create adaptive light distribution when driving on motorways with small turning radii of the roadway. When driving at low speeds and in the city cycle when approaching an intersection in the prototype, the reflector will move to the lens to increase the width of the illuminated area, and the focus will shift from F ₁ to F ₂ as shown in Fig. 3, a. Then, to maintain the required width of the light beam when rotating through an angle α, the lens must rotate along a spherical surface with a radius R 2. However, since this radius cannot be changed in the prototype, the lens will move along a spherical surface with the same radius R 1. As a result, when the lens is rotated by the angle α of the lens will be not in position 2, but in position 2 ^/ , which will inevitably lead to a change in the light distribution on the roadway and it will not correspond to the required one. In the inventive headlight of adaptive lighting, this problem is solved due to the absence of the spherical surface itself and the radius of curvature of the spherical surface, as well as the distance to the reflector, is set by tilting the lens in the vertical or horizontal planes with its simultaneous movement to the required distance from the focus (see Fig. 3 , c) when changing the speed of movement.

The adaptive headlight allows you to increase the accuracy of creating the required light distribution at the high, low and fog lights when changing the position of the steering wheel at all vehicle speeds, which reduces the deformation of the light beam and the illumination of its control points, thereby increasing road safety.

Sources of information

1. RF patent for invention No. 2 289 754, cl. F21S8 / 12, F21V14 / 00, B60Q 1/04, publ. 20.12.2006.

2. RF patent for invention No. 2 656 976, cl. B60Q1 / 14, B60Q 1/04, publ. 07.06.2018.

Claims (1)

An adaptive headlamp containing a housing, an ellipsoidal reflector, a condenser lens, an RGB LED, three stepping motors, respectively, for vertical, horizontal and longitudinal movement of the lens, characterized in that it contains a fourth stepping motor, while increasing the accuracy and speed of movement of the lens when creating of the required light distribution is provided by the longitudinal movement of its corners by motors located at the corners of a rectangular headlight and connected to the lens with guides with ball mounts, while one of the guides is one-piece and is a supporting one, and the other three are prefabricated and consist of two parts with spherical spring-loaded joints to create a vertical and horizontal movement of the lens.

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