Vehicle headlight with two filaments and mounting of such a lamp within a reflector

Abstract

The invention relates to a headlight for a vehicle, comprising a concave reflector and a lamp arranged within the reflector to reflect light from the lamp to create an illumination beam with a bright/dark boundary. The lamp comprises a transparent vessel including a longitudinal axis, at least a first and second filament arranged within the vessel. A baffle arranged proximate to the first filament, and comprising first and second upper side edges. The first filament is arranged above a plane including the upper side edges. A different plane is through the center of the first filament and is arranged perpendicular to the longitudinal axis. The upper side edges are arranged symmetrically to a baffle symmetry axis extending from the center of the first filament centrally between the upper side edges. The lamp is arranged within the reflector rotated around said longitudinal axis by a rotation angle of 2-20.

Claims

1. A headlight for a vehicle, comprising: a concave reflector and a lamp arranged within the aid reflector to reflect light from the lamp to create an illumination beam with a bright/dark boundary, the lamp comprising a transparent vessel including a longitudinal axis, at least a first and a second filament arranged within the vessel, a baffle arranged proximate to the first filament, characterized by the baffle comprising first and second upper side edges, the first filament being arranged above a first plane including the upper side edges, wherein in a second plane through a center of the first filament, the second plane being arranged perpendicular to the longitudinal axis, the upper side edges are arranged symmetrically to a baffle symmetry axis extending from the center of the first filament centrally between the upper side edges, the lamp being arranged within the reflector rotated around the longitudinal axis by a rotation angle of 2-20.

2. The headlight according to claim 1, wherein the lamp is arranged within the reflector such that the baffle symmetry axis is arranged at the aid rotation angle relative to a vertical axis.

3. The headlight according to claim 1, wherein the rotation angle is 6-18.

4. The headlight according to claim 1, wherein the lamp comprises a base with radially extending positioning protrusions, the positioning protrusions being arranged symmetrically relative to a protrusion symmetry axis arranged parallel to the baffle symmetry axis.

5. The headlight according to claim 1, wherein the reflector is a complex shape reflector comprising a plurality of reflecting segments arranged to project images of at least one of the filaments.

6. The headlight according to claim 1, wherein the lamp is arranged in the reflector such that viewed in horizontal direction from a first side of the first filament is at least partially shielded by the first upper side edge of the baffle, and viewed in opposite horizontal direction from a second, opposite side the second upper side edge of the baffle is arranged not to shield the first filament.

7. The headlight according to claim 1, wherein the reflector comprises a first reflecting segment on a first side arranged in at least substantially horizontal direction from first filament, the first reflecting segment being arranged to reflect light from the first filament to a horizontal portion of the bright/dark boundary of the illumination beam.

8. The headlight according to claim 7, wherein the first reflecting segment is shaped to have a focus located on the first filament.

9. The headlight according to claim 1, wherein the reflector comprises a second reflecting segment on a second side arranged in at least substantially horizontal direction from the first filament, the second reflecting segment being arranged to reflect light from the first filament to an inclined portion of the bright/dark boundary of illumination beam.

10. The headlight according to claim 9, wherein the said second reflecting segment is shaped to have a focus located on thud first upper edge.

11. The headlight according to claim 1, wherein the first and second filaments are disposed to operate at an electrical power of more than 60 W each at a supplied voltage of 13.2 V.

12. The reflector for the headlight according to claim 1, comprising: a concave reflector surface forming an inner reflector space, an opening for arrangement of the lamp with positioning protrusions, receiving portions for positioning protrusions located such that lamp is arranged within reflector at a rotation angle of 2-20.

13. A method of forming an illumination beam with a bright/dark boundary for a vehicle, comprising: arranging a lamp within a concave reflector such that light emitted from the lamp creates the illumination beam, the lamp comprising a transparent vessel including a longitudinal axis, at least a first and a second filament arranged within the vessel, a baffle arranged proximate to the first filament, characterized by the baffle comprising first and second upper side edges, the first filament being arranged above a first plane including the upper side edges, wherein in a second plane through a center of the first filament, the second plane being arranged perpendicular to the longitudinal axis, the upper side edges are arranged symmetrically to a baffle symmetry axis extending from the id center of the id first filament centrally between the upper side edges, wherein the lamp is arranged within reflector rotated around the longitudinal axis by a rotation angle of 2-20.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) In the drawings,

(2) FIG. 1, 2 show a side view and a back view of a two-filament lamp;

(3) FIG. 3 shows a sectional view of the lamp of FIG. 1, 2 with the section along the line C . . . C in FIG. 1;

(4) FIG. 4 shows an enlarged side view of a portion of a burner of the filament lamp of FIGS. 1-3;

(5) FIG. 5 shows a schematical sectional view of an embodiment of a headlight;

(6) FIG. 6, 7a, 7b show schematical representations of arrangements of a lamp within a reflector;

(7) FIGS. 8a-8c show horizontal views of a portion of the burner of a lamp for different rotational positions;

(8) FIG. 9a, 9b show intensity distributions of illumination beams for different rotational positions of a lamp within a reflector.

DETAILED DESCRIPTION OF EMBODIMENTS

(9) FIGS. 1, 2, 3 show a two-filament halogen incandescent lamp 10, for example of the H19 type. The lamp 10 comprises a base 12 and a burner 14. The base 12 comprises electrical contacts 16 and mechanical reference elements for mounting of the lamp including a positioning ring 18 and protruding therefrom in radial directions three positioning protrusions 20a, 20b, 20c.

(10) The burner 14 is fixed to the base 12 and comprises a transparent vessel 22. A first filament 24 and a second filament 26 are arranged within a cylindrical portion 28 of the transparent vessel 22. A longitudinal axis L is defined as the center of the cylindrical portion of the vessel 22.

(11) The filaments 24, 26 are arranged within the vessel 22 mounted on mounting rods. A baffle 30 is mounted on one of the mounting rods in a position proximate to the first filament 24.

(12) The relative arrangement of the first and second filaments 24, 26 and the baffle 30 within the cylindrical portion 28 of the vessel 22 are shown in FIG. 4. Both filaments 24, 26 are provided as single winding structures of filament wire wound around respective straight filament axes A1, A2 extending parallel to the longitudinal axis L.

(13) In the example, the first filament 24 has an axial length L1 of about 5 mm and the second filament 26 has an axial length L2 of about 4 mm. The outer diameter of the winding structure of the first filament 24 in the example may be 1.4 mm and the outer diameter of the winding structure of the second filament 26 in the example may be 1.6 mm.

(14) The baffle 30 arranged proximate to the first filament 24 comprises a front portion 32 arranged between the first and second filament 24, 26 which are thus optically shielded from one another.

(15) The baffle 30 is of concave shape and comprises left and right upper side edges 34a, 34b. In the side view shown in FIG. 1, FIG. 4, the upper side edges 34a, 34b extend straight and in parallel to the longitudinal axis L. A straight portion of the upper side edges 34a, 34b is arranged parallel along the length L1 of the first filament 24. As the skilled person will appreciate, the upper side edges 34a, 34b may have a curvature in a horizontal plane (not shown).

(16) The baffle 30 serves to partially shield light emitted from the first filament 24, in particular light emitted into radial directions below the upper side edges 34a, 34b. If the lamp 10 is mounted in a reflector 40 of a vehicle headlight 50 as shown in FIG. 5, the second filament emits light to be reflected both at upper and lower portions of the reflector 40 (dashed lines) for forming a high beam, whereas the first filament 24 emits light only to be reflected at upper portions of the reflector 40 (dotted lines) for forming a low beam 42.

(17) In the lamp shown, the first filament 24 is arranged relatively high above the baffle 30. A plane E (FIG. 3) may be defined by the upper side edges 34a, 34b. The first filament 24 is arranged above the plane E, such that in a side view (FIG. 4) the full filament 24 can be seen above the respective side edge 34a, 34b of the baffle 30, with a distance of e.g. some 0.3 mm between the lower side of the first filament 24 and the upper side edges 34a, 34b.

(18) The lamp 10 is fully symmetrical, both with respect to the base 12 and to the burner 14. As shown in the back view of FIG. 2, the positioning protrusions 20a, 20b, 20c are arranged symmetrically to a protrusion symmetry axis P shown vertically. Likewise, the arrangement of the first filament 24 and the baffle 30 as shown in the section view of FIG. 3 is symmetrical to a baffle symmetry axis B also shown vertically. The baffle symmetry axis B and the protrusion symmetry axis P are arranged in parallel.

(19) The lamp 10 may be inserted into a reflector 40 of a vehicle headlight 50 as schematically shown in the sectional view of FIG. 5. The lamp 10 is inserted in a back opening 36 of the reflector 40 such that the burner 14 is arranged in the inner reflector space. The lamp 10 is positioned within the reflector 40 by the mechanical reference elements 18, 20a, 20b, 20c being received in corresponding stopping positions around the mounting opening 36. In particular, the rotational position of the lamp 10 with respect to the longitudinal axis L is determined by the positioning protrusions 20a 20b, 20c being received in corresponding receiving portions 38 at the reflector 40.

(20) Light from the first filament 24 is reflected by the inner reflective surface of the reflector 40 to form an illumination beam 42 including a bright/dark boundary suitable for low beam lighting.

(21) The reflector 40 is a complex shape reflector comprising individually shaped reflector segments, some of which are shown in FIG. 5 as 46. The illumination beam 42 is created as a superposition of images of the first filament 24.

(22) FIG. 6, 7a, 7b schematically show arrangements of the lamp 10 within the reflector 40. The lower half of the representations in FIG. 6, 7a, 7b should be understood as viewing along the longitudinal axis L from the back of the headlight (i.e. from the right in FIG. 5). In the upper half of the representations in FIG. 6, 7a, 7b, the resulting illumination beam 42 with bright/dark boundary 44 is depicted. As the skilled person will understand, the schematical drawings FIG. 6, 7a, 7b serve to illustrate which portions of the lamp 10 and reflector 40 are responsible for creating different parts of the illumination beam 42.

(23) In FIG. 6, the lamp 10 is arranged within the reflector 40 in upright position, i.e. with the baffle and protrusion symmetry axes B, P oriented vertically, corresponding to a rotation angle of 0.

(24) As schematically shown in FIG. 6, light from the first filament 24 is reflected at the reflector surface to form the illumination beam 42. An intensity distribution of the illumination beam 42 for the upright oriented lamp 10 as shown in FIG. 6 is depicted in FIG. 9a. As schematically indicated in FIG. 6, the illumination beam 42 is a low beam including a bright/dark cut-off 44 including a horizontal portion 44a and a 15 inclined portion 44b.

(25) As schematically indicated in FIG. 6, portions 46a to the right of the reflector 40 arranged at least substantially horizontal relative to the first filament 24 reflect light from this filament into regions at and below the horizontal portion 44a of the bright/dark cut-off 44 of the illumination beam 42, whereas portions 46b of the reflector 40 located on the opposite left side at least substantially horizontally reflect light from the first filament 24 to or below the inclined portion 44b of the bright/dark cut-off 44.

(26) As schematically shown in FIG. 6, a first reflector surface segment 46a located at the right side of a reflector 40 reflects light from the filament 24 to project a horizontal image 48a of the first filament 24. A second reflecting segment 46b located to the left of the reflector 40 projects an image 48b of the first filament 24 which is inclined by the inclination angle of 15. The respective rays are schematically shown as dashed lines.

(27) FIG. 8a shows, for a horizontally symmetrical arrangement of the lamp 10, the appearance of the first filament 24 and the baffle 30 with upper side edges 34a, 34b as viewed from both horizontal reflector portions 46a, 46b. From both directions, the first filament 24 is fully visible and the respective upper side edge 34a, 34b is arranged below the lower side of the first filament 24 with a certain distance, such that a gap 33 is visible between the upper side edges 34a, 34b and the first filament 24.

(28) As the inventors have observed, stray light, shown symbolically as dotted lines in FIG. 6, is also emitted from the burner 14 of the lamp 10. Such stray portions of light may be due e.g. to reflection of light at the baffle 30. The stray light leads to slightly dislocated images 49a, 49b along the bright/dark cut-off line 44. In particular, the stray portions of light forming images 49b above the inclined portion 44b of the bright/dark cut-off line 44 can lead to glare for oncoming traffic.

(29) FIG. 7a shows a different, slightly rotated arrangement of the lamp 10. The lamp 10 is rotated relatively to the reflector 40 in clockwise direction, i.e. to the right in FIG. 7a by a rotation angle of about 15. Consequently, the symmetry axes B, P are arranged under the rotation angle relative to the vertical axis.

(30) Due to the rotated and thus non-symmetrical arrangement of the lamp 10 within the reflector 40, the appearance of a first filament 24 differs as viewed from the horizontal left and right reflector segments 46b, 46a. FIG. 8b shows the appearance of the first filament 24 viewed from the left reflector side in FIG. 7a. Due to the rotation of the lamp 10, the upper side edge 34b of the baffle 30 has been raised relative to the first filament 24, such that the gap 33 below the filament 24 is no longer visible and the filament 24 is partially shielded. Viewed from the opposite right side as shown in FIG. 8c, the upper side edge 34a on the other side is lowered due to the rotation, such that the distance between the lower side of the first filament 24 and the upper side edge 34b of the baffle 30 is increased. From the right horizontal reflector portion 46a, the first filament 24 is fully visible and not shielded by the baffle 30.

(31) As illustrated in FIG. 7a, this eliminates a substantial portion of stray light emitted into the horizontal direction of the second reflector surface segment 46b, shown to the left in FIG. 7a. Consequently, a stray light image 49b, which would appear at or even above the inclined portion 44b of the bright/dark cut-off line 44 (see FIG. 6), is eliminated.

(32) Next to the horizontal portion 44a of the bright/dark cut-off 44, stray light (shown as dotted lines) may still create a stray image 49a. However, this portion of the bright/dark cut-off 44 of the illumination beam 42 is less critical with regard to glare for oncoming traffic.

(33) While in the schematic representation in FIG. 7a the shape of the bright/dark cut-off 44 is shown for countries with right-hand traffic, FIG. 7b shows the bright/dark cut-off 44 for left-hand traffic. The horizontal portion 44a and inclined portion 44b are arranged on opposite sides as compared to FIG. 7a. Consequently, the lamp 10 is arranged rotated in counter-clockwise direction for a rotation angle of about 15, i.e. to the left in FIG. 7b. In the resulting illumination beam 42, the projected image 48b of the filament 24 positioned at the inclined portion 44b is clear without stray light, whereas a stray light image 49a may still be present at the horizontal portion 44a of the illumination beam 42.

(34) FIG. 9b shows an intensity distribution for the illumination beam 42 generated by a lamp 10 rotated within the reflector 40 by a clockwise rotation angle of 15 (as shown in FIG. 7a).

(35) While the invention has been illustrated and described in detail in the drawings and foregoing description, such illustration and description are to be considered illustrative or exemplary and not restrictive; the invention is not limited to the disclosed embodiments.

(36) For example, the specific shape of the baffle 30 and the relative arrangement to the first filament 24 may differ in different embodiments. The lamp 10 may be arranged within the reflector 40 under different rotation angles .

(37) These and other variations of the disclosed embodiments can be understood and effected by those skilled in the art in practicing the claimed invention, from a study of the drawings, the disclosure and the appended claims.

(38) In the claims, any reference signs place between parentheses shall not be construed as limiting the claim. The word comprising does not exclude the presence of elements or steps other than those listed in the claim. The word a or an preceding an element does not exclude the presence of a plurality of such elements. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage.