JPWO2020039890A1 - Light source unit and lamp - Google Patents

Abstract

Diversify the light irradiation mode. It includes an arrangement base (13) that can rotate around a predetermined rotation axis (P) as a fulcrum, and a plurality of light sources (14) arranged on the arrangement base, and at least two of the plurality of light sources have the diameter of the arrangement base. It was placed at a position where the distance from the center of rotation was different in the direction, and it was possible to control turning on and off individually for multiple light sources. As a result, at least two light sources arranged on the arrangement base are arranged at different positions from the rotation center in the radial direction of the arrangement base, and the light sources arranged on the arrangement base are individually turned on and off. Therefore, it is possible to diversify the light irradiation mode.

Description

The present invention relates to a technical field of a light source unit in which a plurality of light sources are arranged on a rotatable arrangement base and a lamp equipped with the same.

Some lamps, for example, vehicle lamps, have a light source unit in which a light source is arranged on a base located in the center of a fan and is rotated together with the fan (see, for example, Patent Document 1). ..

In the vehicle lighting equipment described in Patent Document 1, the light source is turned on when the fan rotates, and a predetermined light distribution pattern is formed by the light emitted from the light source. At this time, the heat generated by the lighting of the light source is released through the base functioning as a heat sink to cool the light source, and the light source is also cooled by the air flow generated by the rotation of the fan.

JP-A-2018-63891

By the way, in recent years, various types of lamps including vehicle lamps have been developed, and the light irradiation mode has been diversified from the viewpoint of visibility and design. For example, in vehicle lighting equipment, in combination with a sensor, a preceding vehicle, an oncoming vehicle, or a pedestrian is detected, and a light irradiation state is provided so that these detection points are not partially irradiated with light. A type that can control is also being developed.

Therefore, it is desirable to diversify the light irradiation mode even in a lamp in which the light source is rotated together with the base.

Therefore, the purpose of the light source unit and the lamp of the present invention is to overcome the above-mentioned problems and to diversify the light irradiation mode.

First, the light source unit according to the present invention includes an arrangement base that can rotate around a predetermined rotation axis as a fulcrum, and a plurality of light sources arranged on the arrangement base, and at least two light sources out of the plurality of light sources. Is arranged at positions where the distance from the center of rotation is different in the radial direction of the arrangement base, and it is possible to individually turn on and off the plurality of light sources.

As a result, at least two light sources arranged on the arrangement base are arranged at different positions from the rotation center in the radial direction of the arrangement base, and the light sources arranged on the arrangement base are individually turned on and off. Is made possible.

Secondly, in the light source unit according to the present invention described above, it is desirable that at least two light sources are arranged at different positions in the circumferential direction as they are separated from the center of rotation.

As a result, since the position of the light source in the circumferential direction differs depending on the distance from the center of rotation, it is possible to perform point-off control according to the rotation position of the light source.

Thirdly, in the light source unit according to the present invention described above, it is desirable that the lighting is performed when the plurality of light sources are moved to a predetermined position by the rotation of the arrangement base.

As a result, the plurality of light sources are turned off at positions other than the predetermined positions, so that the light sources are cooled at positions other than the predetermined positions.

Fourth, in the light source unit according to the present invention described above, it is desirable that a part of the movement loci of the light sources arranged at adjacent positions in the circumferential direction overlap in the radial direction.

As a result, the movement loci of the light sources arranged at adjacent positions in the circumferential direction are not separated from each other in the radial direction.

Fifth, in the light source unit according to the present invention described above, it is desirable that the light source is arranged at a position where it does not overlap the center of rotation.

As a result, when the arrangement base is rotated, light is emitted from a light source arranged at a position that does not overlap the center of rotation.

Sixth, the lamp according to the present invention includes an arrangement base that can rotate around a predetermined rotation axis, a plurality of light sources arranged on the arrangement base, and light that controls light emitted from the plurality of light sources. A control member is provided, and at least two of the plurality of light sources are arranged at positions different from the center of rotation in the radial direction of the arrangement base, and the plurality of light sources can be individually turned on and off. It was made.

As a result, in the light source unit, at least two light sources arranged on the arrangement base are arranged at different positions from the rotation center in the radial direction of the arrangement base, and are individually arranged for a plurality of light sources arranged on the arrangement base. Turn-off control is enabled.

Seventh, in the above-mentioned lamp according to the present invention, as the light control member, a projection lens that projects the light emitted from the light source toward the outside is provided, and the focal point of the light on the incident side of the projection lens or It is desirable that the light source located closest to the center of rotation is arranged in the vicinity of the focal point.

This makes it possible to form the light distribution near the center, which requires high resolution, by a light source arranged at the focal point on the incident side, and to form the ambient light distribution, which does not require high resolution, by another light source.

According to the present invention, at least two light sources arranged on the arrangement base are arranged at different positions from the center of rotation in the radial direction of the arrangement base, and are individually arranged for a plurality of light sources arranged on the arrangement base. Since the on / off control is possible, it is possible to diversify the light irradiation mode.

2 to 16 show an embodiment of the light source unit and the lamp of the present invention, and this figure is a cross-sectional view of the lamp for a vehicle. It is a front view which shows the state which the light source is arranged on the arrangement base. It is a front view which shows the state which the arrangement base is rotated. It is a figure which shows an example of a light distribution pattern. It is a front view which shows the state which the light source is arranged on the arrangement base in the example which the point-off control is controlled in the lighting possible range. It is a figure which shows an example of the light distribution pattern formed in the example which the point-off control is controlled in the lighting possible range. 8 to 15 show an example in which the light sources are arranged side by side in the radial direction, and this figure is a cross-sectional view showing an example of a lamp unit. It is a front view which shows the state which the light source is arranged on the arrangement base. It is a figure which shows the image of the lighting state when it is always lit. It is a figure which shows an example of the light distribution pattern when it is always lit. It is a figure which shows the image of the lighting state at the time of turning off control. It is a figure which shows an example of the light distribution pattern at the time of turning on / off control. It is a figure which shows another example of the light distribution pattern at the time of turning-off control. It is a front view which shows another example of the arrangement state of a light source. It is a front view which shows another example of the arrangement state of a light source. It is a front view which shows the example of another control of a light source.

Hereinafter, a mode for carrying out the light source unit and the lamp of the present invention will be described with reference to the accompanying drawings. The embodiment shown below is an application of the lamp of the present invention to a vehicle headlight. In addition to being applicable to various vehicle lighting fixtures other than vehicle headlights, the lighting fixture of the present invention can be applied to various lighting fixtures such as lighting devices used other than vehicles. Further, the light source unit of the present invention can be applied to various light source units used in various lamps including vehicle lamps.

The lamps 1 are attached and arranged at both left and right ends of the front end of the vehicle body, respectively.

The lamp 1 includes a housing 2 having an opening at the front end and a cover 3 attached to the housing 2 with the opening of the housing 2 closed (see FIG. 1). The housing 2 and the cover 3 constitute a lamp outer housing 4. The internal space of the lamp outer casing 4 is formed as an arrangement space 5.

A lamp unit 6 is arranged in the arrangement space 5. The lamp unit 6 has a support base 7, a lens holder 8, a projection lens 9, and a light source unit 10.

The support base 7 has a plate-shaped base portion 7a facing in the front-rear direction and an outer peripheral portion 7b protruding forward from the outer peripheral portion of the base portion 7a.

The lens holder 8 is formed in an annular shape and is attached to the front surface of the outer peripheral portion 7b.

The projection lens 9 is formed, for example, in a substantially hemispherical shape that is convex forward, and is attached to and held by the lens holder 8. The projection lens 9 has a function of controlling the incident light into parallel light or focused light.

As described above, the projection lens 9 has a function of controlling the incident light into parallel light or condensed light, and the projection lens 9 functions as an optical control member for controlling the light. For example, an extension 11 formed in an annular shape is arranged on the outer peripheral side of the projection lens 9.

The light source unit 10 has a drive motor 12 that functions as a drive source, an arrangement base 13 that is rotated by the drive motor 12, and a plurality of light sources 14, 14, ... Arranged on the arrangement base 13. In FIG. 1, in order to emphasize the arrangement base 13 and the light source 14, the size of the light source 14 with respect to the focal area of the projection lens 9 is not set to an appropriate size. Actually, the light sources 14, 14, ... On the arrangement base 13 are arranged near the focal area of the projection lens 9.

The drive motor 12 is attached to the base portion 7a of the support base 7, and the axial direction is in the front-rear direction.

The arrangement base 13 is formed, for example, in a disk shape or a flat columnar shape, and its central portion is connected to the drive motor 12 in a state where the axial direction is in the front-rear direction. Therefore, the arrangement base 13 is a rotation axis P whose central axis is a rotation fulcrum. The front surface of the arrangement base 13 is formed as a light source arrangement surface 13a. The arrangement base 13 is rotated by the drive motor 12 with the rotation shaft P as a fulcrum. The arrangement base 13 is formed of, for example, a metal material having high heat dissipation, and functions as a heat sink in addition to the function as a rotating body.

In the arrangement space 5, for example, the control circuit 15 is arranged below the light source unit 10. The control circuit 15 controls, for example, turning off the lights of the light sources 14, 14, ... And the rotation of the drive motor 12.

The light sources 14, 14, ... Are arranged radially separated from each other on the outer peripheral portion of the light source arrangement surface 13a on the arrangement base 13 (see FIG. 2). As the light source 14, for example, a light emitting diode (LED) is used. The light sources 14, 14, ... Are arranged on the light source arranging surface 13a via a substrate (not shown). The light sources 14, 14, ... Are arranged at positions that do not overlap the rotation center (rotation axis P) of the arrangement base 13, and at least two of the light sources 14, 14, ... Are arranged base 13. It is arranged at a position where the distance from the center of rotation is different in the radial direction of.

The light sources 14, 14, ... Are arranged at different positions in the circumferential direction as they are separated from the center of rotation, and the two light sources 14, 14, ... Are arranged at symmetrical positions with the center of rotation in between.

Specifically, for example, 18 light sources 14, 14, ... Are arranged, and the light sources 14A, 14A, the light sources 14B, 14B, the light sources 14C, 14C, ..., The light source 14I, are arranged in this order from the rotation center side. Assuming 14I, the two light sources 14 and 14 arranged in the radial direction, for example, the light source 14A and the light source 14B, the light source 14B and the light source 14C, ... There is. The constant angle is, for example, 22.5 degrees obtained by dividing 180 degrees into eight. The light sources 14, 14, ... Are arranged in a substantially S shape as a whole, and the light sources 14A and 14A closest to the center of rotation and the light sources 14I and 14I farthest from the center of rotation are on the same diameter D of the arrangement base 13. Have been placed.

Further, in the light source unit 10, one light source 14A, 14B, 14C, ..., The light source 14I and the other light source 14A, 14B, 14C, ..., The light source 14I are based on the rotation center of the arrangement base 13. It is arranged symmetrically.

In the light source unit 10, only one of the light sources 14A, 14B, 14C, ..., And the light source 14I may be arranged on the arrangement base 13. However, since the light sources 14, 14, ... Are arranged symmetrically with respect to the rotation center of the arrangement base 13, a stable weight balance during rotation of the arrangement base 13 is ensured, and the arrangement base 13 is stable. It is possible to secure a rotating state. Further, by arranging a pair of light sources 14A, 14A, light sources 14B, 14B, light sources 14C, 14C, ..., Light sources 14I, 14I, respectively, the number of light sources 14, 14, ... It is possible to secure the irradiation state of.

The number of arrangements of the light sources 14 with respect to the arrangement base 13 is arbitrary as long as they are plural, and at least two light sources 14 and 14 may be arranged at positions different from the rotation center in the radial direction of the arrangement base 13. .. Further, at least two light sources 14 and 14 may be arranged at different positions in the circumferential direction as they are separated from the center of rotation. Further, three or more sets of light sources 14A, 14B, 14C, ..., And light sources 14I may be arranged.

In the light source unit 10, the light sources 14A and 14A existing at positions closest to the center of rotation are arranged at or near the focal point (rear focal point) on the incident side of the light in the projection lens 9.

In the light sources 14, 14, ..., Except for the light sources 14, 14, ... On the rotation center side, a part of the movement loci of the light sources 14, 14 arranged at adjacent positions in the circumferential direction is in the radial direction. It is designed to overlap. For example, the light source 14H and the light source 14I are arranged at adjacent positions in the circumferential direction, and each part of the movement locus Ha of the light source 14H and the movement locus Ia of the light source 14I when the arrangement base 13 is rotated overlaps ( The overlapping portion is shown as T in Rikoji in FIG. 2). Similarly, in the light source 14G and the light source 14H that are adjacent to each other in the circumferential direction, each part of the movement locus Ga of the light source 14G and the movement locus Ha of the light source 14H when the arrangement base 13 is rotated overlaps.

In the light source unit 10, even on the rotation center side of the arrangement base 13, some of the movement loci of the light sources 14 and 14 arranged at adjacent positions in the circumferential direction overlap in the radial direction. May be good.

In the lamp 1, the light sources 14, 14, ... Can be individually turned on and off. Therefore, the control circuit 15 turns on / off the energized state of each light source 14. As a specific configuration, for example, a plurality of terminals (not shown) for supplying current to the light sources 14, 14, ... Are formed on the lower surface of the arrangement base 13 at intervals in the radial direction, and the control circuit 15 A contact portion (not shown) electrically connected to is positioned on the lower surface of the arrangement base 13 in a slidable state. When the arrangement base 13 is rotated, the contact portion is slid on the lower surface of the arrangement base 13 and the contact portion is connected to the terminal portion, so that the light source 14 corresponding to the connected terminal portion is energized and turned on. When the contact portion is separated from the terminal portion, the light source 14 that has been lit is de-energized and turned off. As another example of control for the light sources 14, 14, ..., A bypass circuit using a switching element is formed on the arrangement base 13 for each of the light sources 14, 14, ..., And switching control is performed by the control circuit 15. May be performed to control the turning off of the light sources 14, 14, ...

As described above, in the lamp 1, the light sources 14, 14, ... Can be individually turned on and off, and in the light source unit 10, the light source unit 10 has a certain range A in the radial direction of the arrangement base 13. The light sources 14, 14, ... Are turned on, and the light sources 14, 14, ... Are turned off in other ranges. Therefore, lighting is performed when the entire light source 14 is moved to the range A by the rotation of the arrangement base 13. The range A is, for example, the range of a horizontally long region including the diameter D extending in the left-right direction of the arrangement base 13. The lamp 1 may be lit when the entire light source 14 is moved to the range A, or may be lit when a part of the light source 14 is moved to the range A.

In this way, in the lamp 1, since the light sources 14, 14, ... Are lit in the range A when the arrangement base 13 is rotated, the light sources 14, 14 that sequentially pass through the range A as the arrangement base 13 is rotated. , ... Are continuously lit, and it is recognized that the light source 14 existing in the range A is always lit.

The range A is a range including the diameter of the arrangement base 13, and a plurality of light sources 14, 14, ... Are always lit when the arrangement base 13 is rotated.

For example, when the outermost light sources 14I and 14I are positioned in the range A by the rotation position of the arrangement base 13, the innermost light sources 14A and 14A are also located in the range A, and the light sources 14I and 14I and the light sources 14A and 14A are located in the range A. It is lit (see FIG. 2). Further, for example, when the light sources 14G and 14G are positioned in the range A by the rotation position of the arrangement base 13, the innermost light sources 14A and 14A are also located in the range A, and the light sources 14G and 14G and the light sources 14A and 14A are turned on. (See Fig. 3).

As described above, in the light source unit 10, since the light sources 14, 14, ... Are arranged apart in the radial direction, the light source 14 closer to the rotation center is arranged based on the arrangement base than the light source 14 far from the rotation center. In one rotation of 13, the state of being located in the range A increases, and the lighting time per unit time is extended by the light source 14 near the center of rotation. Therefore, the brightness of the light source unit 10 is highest on the rotation center side of the arrangement base 13 and decreases from the inner circumference to the outer circumference of the arrangement base 13.

In the light source unit 10, the current value supplied to the light sources 14, 14, ... May be changed according to the position in the radial direction, and the brightness in the light source unit 10 may be controlled to be a desired brightness. .. For example, the brightness may be controlled to be the same regardless of the position of the arrangement base 13 in the radial direction.

The light emitted from the light source 14 is incident on the projection lens 9, the direction is controlled by the projection lens 9, the light is transmitted through the cover 3 and is irradiated forward.

When the light source 14 is lit, the heat generated from the light source 14 and the substrate is transferred to the arrangement base 13 which also functions as a heat sink, and is released through the arrangement base 13 for cooling. At the same time, since an air flow is generated by the rotation of the arrangement base 13, cooling is also performed by this air flow. Further, when the arrangement base 13 is rotated, the light source 14 is turned on only when the light source 14 is moved to the range A, the light source 14 is turned off when the light source 14 is not present in the range A, and the light source 14 does not exist in the range A. The time is the cooling time of the light source 14.

The magnitude of the range A in the circumferential direction may be such that at least one light source 14 as a whole is positioned. For example, when the arrangement base 13 is rotated, the range A is momentarily separated in the circumferential direction. The size may be such that the entire two or more light sources 14 are located. However, the size of the range A in the circumferential direction can be set from the viewpoint of securing the required lighting time based on the number of rotations of the arrangement base 13 and the number of arrangements of the light sources 14, 14, ... With respect to the arrangement base 13. It is desirable, and it is more desirable to set it in consideration of the cooling time required for the light source 14 in order to improve the cooling performance, that is, the extinguishing time of the light source 14 for one rotation of the arrangement base 13.

Since the range A is a horizontally long constant range, the light distribution pattern formed by the light emitted from the light sources 14, 14, ... Is likely to have a horizontally long shape. In the lamp 1, for example, the light source 14, A high beam light distribution pattern H is formed by the light emitted from 14, ... (See FIG. 4). However, the light distribution pattern formed by the light emitted from the light sources 14, 14, ... Is not limited to the high beam light distribution pattern, and may be a low beam light distribution pattern, and is a daytime running lamp. It may be a light distribution pattern of daytime lighting as in the case of being used as an indicator light, or it may be various light distribution patterns of the case of being used as an indicator light.

The light distribution pattern shown in FIG. 4 is a light distribution pattern in which the high beam light distribution pattern H and the low beam light distribution pattern L are combined. The low beam light distribution pattern L is formed, for example, by light emitted from another low beam lamp unit (not shown) arranged adjacent to the lamp unit 6.

When the high beam light distribution pattern H is formed, for example, by combining with a sensor, a preceding vehicle, an oncoming vehicle, a pedestrian, etc. are detected, and light is partially emitted to these detection points. It is possible to control the turning on and off so that irradiation is not performed (see FIGS. 5 and 6).

When a preceding vehicle, an oncoming vehicle, a pedestrian, or the like is detected by the sensor, the detection result is transmitted to the control circuit, and even in the lit range A, the light source 14 is set by the control circuit in the range Ax corresponding to these detection points. 14, ... Are turned off (see FIG. 5), and a light distribution pattern Hx in a state where the lights are turned off in the range Ax is formed (see FIG. 6). The light distribution pattern shown in FIG. 6 is a light distribution pattern in which the high beam light distribution pattern Hx and the low beam light distribution pattern L in a state where the lights are turned off in the range Ax are combined, and the light distribution pattern Hx is in the range Ax. The part that is turned off is the dark part C. The dark portion C does not irradiate the passengers of the preceding vehicle, the passengers of the oncoming vehicle, the pedestrians, etc., and prevents the generation of dazzling light for these passengers and pedestrians.

Depending on the detection result, the light sources 14, 14, ... May be turned off by the control circuit in a plurality of ranges Ax corresponding to a plurality of detection points in the range A.

As described above, the lamp 1 is lit when the plurality of light sources 14, 14, ... Are moved to a predetermined position (range A) by the rotation of the arrangement base 13.

Therefore, since the plurality of light sources 14, 14, ... Are turned off at positions other than the predetermined positions, the light sources 14, 14, ... Are cooled at positions other than the predetermined positions, and the light sources 14, 14, ...・ ・ A good driving condition can be ensured.

In particular, since a plurality of light sources 14, 14, ... Are sequentially turned on in the range A and turned off in a range other than the range A, even if a large amount of current is supplied to the light source 14 only in the range A, sufficient cooling is provided by the turn-off time. It becomes possible to secure a high-intensity irradiation state by using inexpensive light sources 14, 14, ..., And high-intensity irradiation without causing an increase in the manufacturing cost of the lamp 1. The state can be secured.

Further, the light sources 14, 14, ... Are arranged at different positions in the circumferential direction as they are separated from the rotation center of the arrangement base 13.

Therefore, since the positions of the light sources 14, 14, ... In the circumferential direction differ depending on the distance from the center of rotation, it is possible to perform point-off control according to the rotation positions of the light sources 14, 14, ... It is possible to improve the degree of freedom of turning on and off control.

Further, since the light sources 14, 14, ... Are arranged at different positions in the radial direction of the arrangement base 13 and the positions in the circumferential direction differ depending on the distance from the center of rotation, the light sources 14, 14, ... Are arranged in the radial direction and the circumferential direction of the arrangement base 13. It is scattered and arranged.

Therefore, the heat generated in the light sources 14, 14, ... And the substrate is not concentrated and transferred to a part of the arrangement base 13, and the heat dissipation can be improved.

Furthermore, a part of the movement trajectories of the light sources 14 and 14 arranged at adjacent positions in the circumferential direction overlap in the radial direction.

Therefore, since the movement loci of the light sources 14 and 14 arranged adjacent to each other in the circumferential direction are not positioned apart in the radial direction, the number of arrangements of the light sources 14 and 14 in the radial direction can be increased, and high-luminance irradiation can be performed. It is possible to secure a state and to form a good light distribution pattern in which a non-light emitting portion does not exist in the irradiation region.

Further, the light sources 14, 14, ... Are arranged at positions that do not overlap with the rotation center of the arrangement base 13.

Therefore, when the arrangement base 13 is rotated, light is emitted from the light sources 14, 14, ... Arranged at positions that do not overlap the center of rotation, so that the irradiation range can be expanded in the radial direction.

Further, when the light source 14 is arranged at a position overlapping the center of rotation, the light source 14 is always in the range A when the arrangement base 13 is rotated, so that the light source 14 is always lit. By arranging the ... at a position that does not overlap the rotation center of the arrangement base 13, it is possible to perform point-off control for all the light sources 14, 14, ....

Furthermore, a projection lens 9 for projecting the light emitted from the light sources 14, 14, ... To the outside is provided as an optical control member, and the light is rotated to or near the focal point on the incident side of the light in the projection lens 9. Light sources 14 and 14 existing at positions closest to the center are arranged.

Therefore, the light distribution near the center, which requires high resolution, is formed by the light sources 14, 14 arranged at the focal point on the incident side, and the surrounding light distribution, which does not require high resolution, is formed by the other light sources 14, 14, ... It becomes possible to form the required light distribution in a large area.

Next, an example in which the light sources 14, 14, ... Are arranged side by side in the radial direction will be described (see FIGS. 7 to 15).

In this example, the lamp unit 6A is used (see FIG. 7).

In the lamp unit 6A, the arrangement base 13A and the drive motor 12 are arranged in a state where the axial direction is in the front-rear direction. The central portion is connected to the drive motor 12 in this state. Therefore, the arrangement base 13A is in a state where the light source arrangement surface 13a faces forward.

The light sources 14, 14, ... Are arranged side by side at equal intervals, for example, on one radius R of the light source arrangement surface 13a in the arrangement base 13A (see FIG. 8). The light sources 14, 14, ... Are arranged at positions that do not overlap the rotation center of the arrangement base 13A.

Light is emitted from the light sources 14, 14, ... When the arrangement base 13A is rotated, and the light sources 14, 14, ... Are always lit when the arrangement base 13A is rotated (see FIG. 9). The shaded areas in FIG. 9 show images of the lighting states of the light sources 14, 14, .... The direction of the light emitted from the light sources 14, 14, ... Is controlled by the projection lens 9, and the light is transmitted to the front through the cover 3.

As a light distribution pattern formed by the light emitted from the light sources 14, 14, ... When the arrangement base 13A is rotated, for example, a high beam light distribution pattern M is formed (see FIG. 10). The light distribution pattern M is formed in a substantially elliptical shape formed by a plurality of annular patterns m, m, ... Formed by the light sources 14, 14, ....

The light distribution pattern formed by the light emitted from the light sources 14, 14, ... When the arrangement base 13A is rotated may be a low beam light distribution pattern, and may be used as a daytime running lamp. Such a light distribution pattern for daytime lighting may be used, or various light distribution patterns when used as an indicator lamp may be used.

Further, in the lamp 1, since the light sources 14, 14, ... Can be individually turned off, at least one light source 14 may be turned off when the arrangement base 13A is rotated (FIG. FIG. 11). The shaded area in FIG. 11 shows an image of the lighting state of each of the light sources 14, 14, ..., And shows an example in which the light sources are turned off in the range B.

Similar to the above, such point-off control detects, for example, a preceding vehicle, an oncoming vehicle, a pedestrian, etc. by combining with a sensor, and partially irradiates these detected points with light. It may be a point extinguishing control to prevent it from being damaged.

At this time, the light distribution pattern formed by the light emitted from the light sources 14, 14, ... It is an optical pattern Ma (see FIG. 12).

By performing point-off control for the light sources 14, 14, ... During rotation of the arrangement base 13A in which the light sources 14, 14, ... Are arranged side by side in the radial direction in this way, the light sources 14, 14, ... Are turned off in the rotation direction of the arrangement base 13A. Can perform light-shielding with stepless decomposition performance, and can perform light-shielding with the decomposition performance of the number of light sources 14, 14, ... In the radial direction of the arrangement base 13A.

Further, by turning off the lights when the light sources 14, 14, ... It is also possible (see FIG. 13).

In the above, an example in which the light sources 14, 14, ... Are arranged side by side at equal intervals on one radius R of the arrangement base 13A is shown, but the light sources 14, 14, ... Are not. They may be arranged side by side at equal intervals, or they may be arranged side by side at equal or unequal intervals on one diameter, and have two or more radii R, R, ... Above or two. It may be arranged side by side on one or more diameters D, D, ... (See FIG. 14). Further, the light sources 14, 14, ... Arranged in the radial direction may be arranged on different radii R, R, ... In the circumferential direction (see FIG. 15).

As described above, by using the lamp unit 6A to constantly turn on or turn off the light sources 14, 14, ... When the arrangement base 13A is rotated, the lamp unit 6A does not have a reflector or the like. Since the light sources 14, 14, ... Are not arranged in the circumferential direction and the number of arrangements is small, good heat dissipation performance can be ensured while ensuring the miniaturization of the lamp 1.

It should be noted that the lamp 1 can also perform the following controls (see FIG. 16).

A plurality of light sources i, i, ... Are arranged in the arrangement base 13 in the radial direction. Note that FIG. 16 shows only one light source i.

When the light source i arranged on the arrangement base 13 is located at an angle θ in the radial direction from the rotation center O and in the circumferential direction from the reference line Q, the polar coordinates are defined as (r (i), θ). NS. Arrangement Base 13 is arranged with n light sources r (1), r (2), r (3), ..., R (n), and each light source r (1), r (2), r (3). ), ..., And r (n) are controlled to turn off the lights, so that the light emission control of each position on the polar coordinates described above becomes possible.

As described above, in the lamp 1, at least two light sources 14, 14 among the plurality of light sources 14, 14, ... Are located at positions where the distances from the rotation centers are different in the radial direction of the arrangement bases 13, 13A. It is arranged in, and it is possible to individually turn on and off the plurality of light sources 14, 14, ....

Therefore, at least two light sources 14 arranged on the arrangement bases 13 and 13A are arranged at different positions from the rotation center in the radial direction of the arrangement bases 13 and 13A, and a plurality of light sources arranged on the arrangement bases 13 and 13A. Since it is possible to individually turn on and off the light sources 14, 14, ..., It is possible to diversify the light irradiation mode.

Further, the extinguishing time can be set as the cooling time by turning off the light sources 14, 14, ... When the arrangement bases 13, 13A are rotated, and the light sources 14, 14, ... Are sufficiently cooled by the extinguishing time. It is possible to improve the cooling performance and diversify the light irradiation mode.

1 ... Lamp, 8 ... Projection lens (light control member), 11 ... Light source unit, 13 ... Arrangement base

Claims (7)

An arrangement base that can rotate around a predetermined rotation axis as a fulcrum,
With a plurality of light sources arranged on the arrangement base,
At least two of the plurality of light sources are arranged at different distances from the center of rotation in the radial direction of the arrangement base.
A light source unit capable of individually turning on and off the plurality of light sources. The light source unit according to claim 1, wherein the at least two light sources are arranged at different positions in the circumferential direction as they are separated from the center of rotation. The light source unit according to claim 1 or 2, wherein lighting is performed when the plurality of light sources are moved to a predetermined position by rotation of the arrangement base. The light source unit according to claim 3, wherein a part of the movement loci of the light sources arranged at adjacent positions in the circumferential direction overlap in the radial direction. The light source unit according to claim 1, claim 2, claim 3 or claim 4, wherein the light source is arranged at a position where the light source does not overlap the center of rotation. An arrangement base that can rotate around a predetermined rotation axis as a fulcrum,
With a plurality of light sources arranged on the arrangement base,
It is provided with an optical control member that controls light emitted from the plurality of light sources.
At least two of the plurality of light sources are arranged at different distances from the center of rotation in the radial direction of the arrangement base.
A lamp that can be individually turned on and off for the plurality of light sources. As the light control member, a projection lens that projects the light emitted from the light source toward the outside is provided.
The lamp according to claim 6, wherein the light source located at a position closest to the center of rotation is arranged at a focal point on the incident side of light in the projection lens or in the vicinity of the focal point.

Images