RU177050U1 - HEADLIGHT - Google Patents

Abstract

The utility model relates to the field of vehicle lighting, and in particular to devices for external lighting of vehicles, and can be used to obtain the design of the high beam headlamp. The declared high-beam headlamp contains a free-form magnesium alloy reflector, a halogen lamp located in the magnesium alloy reflector bowl, a protective cover glass, a housing connected to a protective cover glass and a magnesium alloy reflector. In this case, the depth of the reflector bowl made of magnesium alloy is 22.6 ± 1 mm, and the distance between the end of the reflector through which the halogen lamp passes and the protective cover glass is 42.4 ± 1 mm. The technical result is an improvement in the lighting characteristics of the main beam headlight by adjusting the depth of the reflector bowl and the distance between the end of the reflector through which the lamp passes and a protective cover glass. 3 ill.

Description

The utility model relates to the field of vehicle lighting, and in particular to devices for external lighting of vehicles, and can be used to obtain the design of the high beam headlamp.

Driving lights can significantly increase the visibility of the road, illuminate the road surface and part of the curb, but the light from the headlights can dazzle drivers moving towards. Therefore, it can only be used in the dark at night on an unlit section of the road, in a tunnel, or with insufficient visibility. In addition, when the main beam headlights are turned on, an effect such as re-reflection of the light flux from the inner surface of the protective cover glass can be observed. In the presence of such an effect, light scattering is observed, its “vagueness”, which leads to a decrease in the quality of the illuminated area. Therefore, when designing high-beam headlights, an important issue is to obtain an extended narrowly focused powerful light flux, which allows drivers to see a significant section of the road in front of a moving vehicle.

The known designs of the main-beam headlamps are arranged in such a way that the light from the lamp enters a parabolic reflector, which after reflection passes through a cover glass and enters the roadway (see Fig. 1).

The design of the D90 high beam module is known (https://www.off-road-liqht.ru/index.php?paqe=shop.product_details&flypaqe=flypaqe.tpl&product_id=468&cateqory_id=261&option=com_virtuemart&ltemid=.06.2017, reviewed adopted for the closest analogue to the claimed solution for a high beam headlamp, containing a magnesium alloy reflector made by the “free form” technology, a halogen lamp located in a magnesium alloy reflector bowl, a protective cover glass, a housing connected to a protective cover glass and a magnesium alloy reflector. The high-beam headlamp also has a Gore-Tex membrane in the ventilation system and a seal in the radial bayonet connection of the lamp holder, which provides a high degree of protection for the headlamp from dust and moisture.

The design of this high beam headlamp is well known and used. It has an increased efficiency of the light flux, protection against moisture and dust. However, the luminous characteristics of the headlights aimed at obtaining a narrowly focused powerful luminous flux can be further improved, as provided for by the claimed utility model.

The technical result of the utility model is to improve the lighting characteristics of the main beam headlight by adjusting the depth of the reflector bowl and the distance between the end of the reflector through which the lamp passes and a protective cover glass.

The technical result is achieved by using a high-beam headlamp containing a magnesium alloy reflector made in the “free form” technology, a halogen lamp located in a magnesium alloy reflector bowl, a protective cover glass, a housing connected to a protective cover glass and a magnesium alloy reflector while the depth of the reflector bowl of the magnesium alloy is 22.6 ± 1 mm, and the distance between the end of the reflector through which the halogen lamp passes and the protective cover glass is 42.4 ± 1 mm

The depth of the reflector bowl in the context of this utility model refers to the distance from the end of the reflector through which the halogen lamp passes and the opposite end facing the protective cover glass.

Also, as in the case of the closest analogue, the declared high beam headlight has a Gore-Tex membrane in the ventilation system and a seal in the radial bayonet joint of the lamp holder, which provides a high degree of protection for the headlight from dust and moisture.

A magnesium alloy reflector made using the “free form” technology (or FF reflectors) has a surface divided into separate segments, each of which is responsible for its part of the illuminated space. The ray of light is more purposefully distributed over an increased distance. At the same time, the efficiency increases to 45% (https://www.drive2.ru/b/1923829/, viewed June 25, 2017). The use of magnesium alloy increases the resistance of the reflector surface to fading when exposed to light from a lamp.

Also, the dipped-beam headlamp ventilation system is made using Gore-Tech material. The specified material is a membrane fabric - a waterproof fluoroplastic film with a large number of holes per unit area (https://ru.wikipedia.org/wiki/Gore-Tex, viewed June 25, 2017). This material in the design of the headlight is used to increase the protective properties of the headlight, which allows its use in any climatic conditions.

The implementation of the reflector bowl of magnesium alloy with a depth equal to 22.6 ± 1 mm, allows to obtain a more concentrated luminous flux with greater power. The distance between the end of the reflector through which the halogen lamp passes and the protective cover glass equal to 42.4 ± 1 mm allows avoiding re-reflection on its inner surface and to obtain a narrow beam of light with maximum power at the output.

In FIG. 1 shows a standard diagram of the movement of the light flux in the main beam headlamp.

In FIG. 2 shows the design of the inventive high beam headlamps.

In FIG. 3a-3c shows table 1, which reflects the results of the assessment of illumination from the claimed headlights when changing the depth of the reflector bowl and the distance between the end of the reflector through which the lamp passes and a protective cover glass.

The inventive design of the main beam headlight comprises a reflector 1 of magnesium alloy, a halogen lamp 2 located in the bowl 3 of the reflector 1 of magnesium alloy, a protective cover glass 4, a housing 5 connected by a reflector 1 of magnesium alloy and a protective cover glass 4, while the depth of the bowl reflector 1 of a magnesium alloy L is equal to 22.6 ± 1 mm, and the distance between the end of the reflector through which the halogen lamp passes and the protective cover glass is H? equal to 42.4 ± 1 mm (Fig. 2).

The high-beam headlamp assembly is similar to the assembly of the D90 high-beam module.

Evaluation of the illumination of the headlights was carried out using a TKA-PKM-41 light meter connected to a personal computer. As seen in FIG. 3, the depth of the reflector bowl made of magnesium alloy, equal to 22.6 ± 1 mm, and the distance between the end of the reflector through which the halogen lamp passes and the protective cover glass, equal to 42.4 ± 1 mm, are the most optimal parameter values to obtain the maximum Efficiency of the light flux from lamp 2 and roadway lighting.

The declared headlight passed tests in the Test center "Certification group" IL "Hard group". The compliance of the headlamp with the requirements is confirmed by test report No. 11N / N-17.04 / 17. Also, a conformity certificate No. ТС RU С-CN.AB29.B.13862 (series RU, №0504029) was issued for the indicated design of the headlight.

Claims (1)

A dipped-beam headlamp, characterized in that it contains a free-form magnesium alloy reflector, a halogen lamp located in the magnesium alloy reflector bowl, a protective cover glass, a housing connected to a protective cover glass and a magnesium alloy reflector, the depth of the reflector bowl made of magnesium alloy is 22.6 ± 1 mm, and the distance between the end of the reflector through which the halogen lamp passes and the protective cover glass is 42.4 ± 1 mm.

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