PL71260Y1 - Module for generation of laser light in the lamps of automobile vehicles - Google Patents

Abstract

A module for generating laser light in motor vehicle lamps, intended for installation in headlamps, especially complex lamps, made of a laser diode (5), in front of which a mirror is placed diagonally in relation to its light beam, and in front of which a reflector (8) is located, characterized by the following that the laser diode (5) is mounted in the hole (4) made in the body (2) between its rear wall and the cavity (3) created in its front, in which in front of the hole (4) created in its wall it is located obliquely relative to axis of symmetry of this hole (4), constituting a mirror, a phosphor layer (7), opposite which there is a reflector (8) in the form of an open front of the body (2), a superstructure which is attached to the body (2) above the cavity (3) , in the hole (4), in front of the laser diode (5), located in front of the collimator (6).

Description

PL 71 260 Y1 2 Description of the design The subject of the utility design is a module for generating laser light in car lamps, intended to be built into headlamps, especially complex lamps. It is known for its use by the German company Bayerische Motoren Werke A.G. a front headlamp in which the high beam and low beam are laser light. In the solution, the light generation system built inside the lamp body consists of a laser diode mounted at the back of the lamp body, in front of which, in the front of the lamp, a mirror is placed diagonally to the laser beam stream, from which the reflected light is directed to a built-in reflector located in front of the mirror. into the headlamp body. The solution fills a significant part of the lamp. A similar solution is used by the German company VOLKSWAGEN AG, with the difference that the light beam reflected from the mirror is directed to a transparent phosphor plate, through which it changes the color of light from blue to white, and then directed to a light-dividing lens with high resolution built into the front of the reflector behind the lamp shade. Known from the German utility model DE 202016100463 is a laser headlight for vehicles composed of a laser diode located opposite the laser diode of the phosphor plate, and a system of two lenses located between the laser diode and the phosphor plate. The beam from the laser diode passes through the first and then the second lens. Known from the American invention application US 2015330591 is a car lamp made of a laser diode, in front of which a metal plate with a phosphor layer is placed diagonally to the axis of the light beam. A reflector is placed in front of the phosphor layer. Known from the Chinese patent application CN 103206659 is a car lamp emitting laser light, made of a housing closed at the front with a lampshade, in which there is a plate at the back on which the laser light generating unit is located. The board is surrounded by a reflector located in the housing. The laser light generating unit emits scattered light, not a beam of light. The purpose of the utility model is a small, compact module for generating laser light, which could be built into car headlamps with a new design or a known design after modification that does not change their external design. The essence of the utility model is a module for generating laser light made of a body equipped with mounting brackets, in which between its rear wall and the cavity created in the front, open on one side of the body, there is a hole in which a laser diode is mounted and a in front of it is a collimator, and in the recess, in front of the hole in its wall, there is a phosphor layer located diagonally to its symmetry axis, constituting a mirror, opposite which there is a reflector in the form of a superstructure open from the front of the body, which connects to the body is mounted above the recess. The compact design of the module allows it to be used in existing lamp designs after minor modification, which significantly reduces the costs of designing new lamps. The subject of the utility model is shown in the drawing, in which Fig. 1 shows the module in an axonometric view, and Fig. 2 shows the module in longitudinal section through the body. The module for generating laser light in the version according to the utility model is composed of a monolithic body 2 equipped with two mounting brackets 1, in the front of which there is a cavity 3, open from the top of the body 2, in the shape of a right-angled triangle. The mounting brackets 1 are formed in the rear part of the body 2 on both sides. The body 2 is made of an aluminum alloy. In the body 2, between its rear wall and the cavity 3, there is a through-hole, multi-diameter hole 4, consisting of three sections with gradually increasing diameters. The hole 4 in the first section, i.e. in the section at the rear wall of the body 2, has the largest diameter, and in the third section, i.e. in the section at the cavity 3, has the smallest diameter. In the first section of the hole 4, a laser diode 5 is mounted, pushed towards its end, and in the second section, a collimator 6 is mounted, pushed towards the end of this section, converting the laser light stream falling on it into a parallel beam. The wall of the cavity 3 opposite the wall in which the opening 4 is located is oblique in relation to the symmetry axis of this opening. On the oblique wall of the cavity 3, in the area at the height of the symmetry axis of the opening 4, a mirror in the form of a phosphor layer 7 is mounted, opposite to which there is a reflector 8 in the form of a structure open from the front of the body 2, a superstructure located above the cavity 3. The reflector 8 is attached to the body 2 through the mounting plate formed at its back 9. PL PL PL