Vehicle lamp
By setting a light control surface between the fixed and movable side units of the vehicle lamp, the path of the light is controlled, allowing the light to propagate internally and be emitted from the front side. This solves the problem of insufficient connection between the fixed and movable side lamp units, achieving continuous lighting effect and improved aesthetics.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- ICHIKOH IND LTD
- Filing Date
- 2021-05-26
- Publication Date
- 2026-06-23
AI Technical Summary
In existing vehicle lighting fixtures, there is insufficient connection between the fixed-side lighting unit and the movable-side lighting unit.
The design employs a fixed-side unit and a movable-side unit. The fixed-side unit includes a first light source, a first light guide, a first outer lens, and a first foot. The movable-side unit includes a second light source, a second light guide, a second outer lens, and a second foot. By setting a light control surface on the second foot to control the path of the light, the light propagates internally and is emitted from the front side, forming a continuous illuminated area.
It improves the connection between the fixed side unit and the movable side unit, provides a continuous lighting effect, and enhances the overall aesthetics and functionality of the luminaire.
Smart Images

Figure CN115698589B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to vehicle lighting fixtures. Background Technology
[0002] Previously, vehicle lights were known to be positioned at the rear of a vehicle, spanning both the vehicle body side and the rear door side (for example, see Patent Document 1). Such vehicle lights have a structure comprising a light unit on the vehicle body side and a light unit on the rear door side.
[0003] Existing technical documents
[0004] Patent documents
[0005] Patent Document 1: Japanese Patent No. 6159166 Summary of the Invention
[0006] The problem that the invention aims to solve
[0007] In the vehicle lamp described in Patent Document 1, the lamp unit on the vehicle body side and the lamp unit on the rear door side are arranged with a gap between them. In a vehicle lamp arranged between the fixed side and the movable side of the vehicle, a structure is required to improve the sense of connection between the lamp unit on the fixed side and the lamp unit on the movable side.
[0008] The present invention was made in view of the above circumstances, and its object is to provide a vehicle lamp that can improve the sense of connection between the lamp unit on the fixed side and the lamp unit on the movable side.
[0009] Solution for solving the problem
[0010] According to the present invention, a vehicle lamp includes: a fixed-side unit disposed on the fixed part of a vehicle having a fixed part and a movable part and irradiating light; and a movable-side unit disposed on the movable part with a gap between it and the fixed-side unit and irradiating light. The fixed-side unit includes: a first light source; a first light guide for guiding light from the first light source; and a first outer lens having: a first front face portion covering the front face of the first light guide in a vehicle-mounted state; and a first foot portion covering the side face of the first light guide with the gap. The movable-side unit includes: a fixed-side unit disposed on the fixed part of a vehicle having a fixed face portion covering the front face of the first light guide in a vehicle-mounted state; and a first foot portion covering the side face of the first light guide with the gap. The unit includes: a second light source; a second light guide that guides light from the second light source; and a second outer lens having: a second front portion that covers the front side of the second light guide in a vehicle-mounted state; and a second foot portion having a side portion that covers the gap side of the second light guide, the second foot portion having a light control surface on the portion facing the second light guide, the light control surface being controlled such that light emitted from at least one of the first light source and the second light source and incident on the light control surface passes through the interior of the second foot portion and exits from the front side of the second foot portion.
[0011] Alternatively, the light control surface can also be located on the portion of the second foot facing the second light guide.
[0012] In addition, the light control surface can also cause the light emitted from the second light guide and incident on the light control surface to be refracted into the interior of the second foot.
[0013] In addition, the light control surface can also perform internal surface reflection of light emitted from the first light source and incident from the gap side into the interior of the second foot and from the interior side of the second foot toward the light control surface.
[0014] Alternatively, the first foot may also have a refractive surface that refracts light emitted from the first light guide into the interior of the first foot.
[0015] Alternatively, the light control surface can also control the light by reflecting the light reaching the light control surface inward on the surface of the gap side in the second foot.
[0016] In addition, the cross-sectional shape of the light control surface when the second foot is cut off by a plane parallel to the horizontal plane in the vehicle mounting state can also be serrated.
[0017] Invention Effects
[0018] According to the present invention, the connection between the fixed-side lamp unit and the movable-side lamp unit can be improved. Attached Figure Description
[0019] Figure 1 This is an example of a vehicle light fixture as viewed from behind the vehicle.
[0020] Figure 2 It means along Figure 1 The diagram shows the structure of section AA in the diagram.
[0021] Figure 3 It means along Figure 1 A diagram of the structure of section BB in the diagram.
[0022] Figure 4 It means along Figure 1 A diagram of the structure of the CC section.
[0023] Figure 5 This is a diagram illustrating an example of the path of light when a vehicle's lights are turned on.
[0024] Figure 6 This is a diagram illustrating an example of the path of light when a vehicle's lights are turned on.
[0025] Figure 7 This is an example of the illuminated state of vehicle lights. Detailed Implementation
[0026] Hereinafter, embodiments of the vehicle lamp according to the present invention will be described with reference to the accompanying drawings. However, the present invention is not limited to these embodiments. Furthermore, the constituent elements in the following embodiments include elements that can be easily substituted by those skilled in the art, or substantially the same elements.
[0027] Figure 1 This is a diagram illustrating an example of a vehicle light fixture 100 as viewed from behind vehicle 1. (See diagram for example.) Figure 1 As shown, vehicle 1 includes a body 2 with a running gear (not shown) and vehicle lights 100. The body 2 includes a driver's cab. The body 2 is supported by the running gear. The running gear includes: wheels with tires; a steering mechanism for changing the direction of travel of vehicle 1; and a braking mechanism for decelerating or stopping the running gear. Vehicle 1 includes a passenger / flight door located on the side of the body 2 and a rear door 7 located at the rear of the body 2. The passenger / flight door and the rear door 7 are movably supported on the body 2 via hinge mechanisms.
[0028] In the following description, vehicle 1 is positioned on the ground parallel to the horizontal plane. The positional relationships of each part are described using terms such as front, rear, up, down, left, and right, with the driver seated in the cab as the reference point. The front-rear, up-down, and left-right directions indicate the directions in which the vehicle lights are mounted on the vehicle, and the directions when viewed from the driver's seat as the vehicle's direction of travel. Furthermore, in this embodiment, the up-down direction is parallel to the vertical direction, and the front-rear and left-right directions are parallel to the horizontal direction.
[0029] In this embodiment, the vehicle lamps 100 are respectively installed on the left and right sides of the rear of the vehicle body 2. In this embodiment, the vehicle lamps 100 are installed at the rear of the vehicle body 2. Therefore, the rear side in the front-rear direction will be described as the front side of the vehicle lamps 100, and the front side in the front-rear direction will be described as the rear side of the vehicle lamps 100.
[0030] The vehicle lighting fixture 100 includes functional lights. Examples of functional lights include: taillights located at the rear of the vehicle body 2 and illuminated in conjunction with the illumination of the headlights; parking lights located at the rear of the vehicle body 2 and illuminated in conjunction with the operation of the braking device; and rear turn signals located at the rear of the vehicle body 2 and illuminated to indicate the direction of travel of the vehicle 1 to the surroundings.
[0031] Vehicle lights 100 are respectively arranged across the sides of the vehicle body 2 and the rear door 7. In this embodiment, the vehicle body 2 is a fixed part. The rear door 7 is a movable part. The vehicle lights 100 located on the left side of the rear of the vehicle body 2 and the vehicle lights 100 located on the right side of the rear of the vehicle body 2 are symmetrical in the left-right direction and are substantially identical in construction. Hereinafter, the vehicle lights 100 located on the right side of the rear of the vehicle body 2 will be described in detail, while the description of the vehicle lights 100 located on the left side of the rear of the vehicle body 2 will be simplified or omitted.
[0032] Figures 2 to 4 This is a schematic diagram illustrating an example of a vehicle lamp 100 according to this embodiment. Figure 2 Indicates along Figure 1 The structure of section AA in the middle. Figure 3 Indicates along Figure 1 The structure of the BB section in the middle. Figure 3 Indicates along Figure 1 The structure of the CC section.
[0033] Figures 2 to 4 The vehicle lighting fixture 100 shown includes: a fixed side unit 10 disposed on the vehicle body 2 side, which is a fixed part; and a movable side unit 20 disposed on the rear door 7 side, which is a movable part. The fixed side unit 10 and the movable side unit 20 are separated by a gap 30.
[0034] The fixed-side unit 10 includes a light source (first light source) 11, a light guide (first light guide) 12, an inner shell 13, an inner lens 14, an outer lens (first outer lens) 15, and a lamp housing 16.
[0035] The light source 11 is, for example, a semiconductor light source such as an LED. The light source 11 supplies light to the fixed side unit 10.
[0036] The light guide 12 directs light from the light source 11 toward the front (rear) side. The light guide 12 has an end face 12a at its end on the side of the rear door 7 (movable side, left side). A portion of the light from the light source 11 is emitted to the left from the end face 12a within the light guide 12. The end face 12a is, for example, planar. By providing the end face 12a at the left end of the light guide 12, a portion of the light from the light source 11 can be efficiently emitted to the left.
[0037] The inner shell 13 holds the light guide 12. The inner shell 13 is disposed on the back side of the light guide 12. The inner shell 13 may also have a reflective member on the front side surface 13a. In this case, light emitted from the light guide 12 toward the back side can be reflected toward the front side.
[0038] The inner lens 14 allows light emitted from the light guide 12 to pass through. The inner lens 14 is configured to cover the front side of the light guide 12.
[0039] The outer lens 15 directs the light emitted from the inner lens 14 to the outside of the vehicle lamp 100. The outer lens 15 is plate-shaped, and in cross-section, the portion facing the gap 30 is curved into an L-shape. The outer lens 15, together with the lamp housing 16, houses the various parts of the vehicle lamp 100. The outer lens 15 is formed, for example, using a transparent resin material or a material of the same color as the illumination color.
[0040] The outer lens 15 has a front portion (first front portion) 17 and a foot portion (first foot portion) 18. The front portion 17 is disposed on the front side of the inner lens 14. The foot portion 18 is disposed on the side (left side) of the rear door 7 side of the light guide 12. The foot portion 18 is a portion that extends from the end of the front portion 17 on the gap side toward the rear side. The foot portion 18 has a connecting portion 19 that connects to the front portion 17. The connecting portion 19 has a rounded corner shape when viewed in section.
[0041] The foot 18 has a refractive surface 18a. The refractive surface 18a refracts light emitted from the light guide 12 and reaching the foot 18 into the interior of the foot 18. The light refracted from the refractive surface 18a into the interior of the foot 18 passes through the foot 18 and exits towards the gap 30 side. The light exiting towards the gap 30 side enters the foot 28, which will be described later. The refractive surface 18a extends from the back side to the front side, for example, in a range from a position corresponding to the front side end of the light guide 12 to the back side end of the connecting portion 19. Furthermore, the position of the back side end of the refractive surface 18a can be appropriately set according to the position of the light control surface 28a, which will be described later. That is, the position of the back side end of the refractive surface 18a can be appropriately set at a position, for example, where light from the light guide 12 can enter the light control surface 28a, which will be described later.
[0042] The refractive surface 18a has a sawtooth cross-sectional shape, for example. However, the cross-sectional shape of the light control surface 28a is not limited to a sawtooth shape; it can be any shape as long as it can refract light as described above. Furthermore, the portion of the surface on the light guide 12 side of the foot 18, excluding the portion where the refractive surface 18a is provided, can also have a textured shape, for example.
[0043] In addition, the movable side unit 20 includes a light source (second light source) 21, a light guide (second light guide) 22, an inner shell 23, an inner lens 24, an outer lens (second outer lens) 25, and a lamp housing 26.
[0044] The light source 21 is, for example, a semiconductor light source such as an LED. The light source 21 supplies light to the movable side unit 20. The light guide 22 directs the light from the light source 21 to the front side (rear). The inner shell 23 holds the light guide 22. The inner lens 24 allows the light emitted from the light guide 22 to pass through.
[0045] The light source 21 is, for example, a semiconductor light source such as an LED. The light source 21 supplies light to the movable side unit 20. The light guide 22 directs the light from the light source 21 to the front side (rear). The inner shell 23 holds the light guide 22. The inner lens 24 allows the light emitted from the light guide 22 to pass through.
[0046] The outer lens 25 directs the light emitted from the inner lens 24 to the outside of the vehicle lamp 100. The outer lens 25 is plate-shaped, and in cross-section, the portion facing the gap 30 is curved into an L-shape. The outer lens 25, together with the lamp housing 26, houses the various parts of the vehicle lamp 100. The outer lens 25 is formed, for example, using a transparent resin material or a material of the same color as the illumination color.
[0047] The outer lens 25 has a front portion (second front portion) 27 and a foot portion (second foot portion) 28. The front portion 27 is disposed on the front side of the inner lens 24. The foot portion 28 is disposed on the side (left side) of the rear door 7 of the light guide 22. The foot portion 28 is a portion that extends from the end of the front portion 27 on the gap 30 side toward the rear side. The foot portion 28 has a connecting portion 29 that connects to the front portion 27. The connecting portion 29 has a rounded corner shape when viewed in section.
[0048] The foot portion 28 has a light control surface 28a. The light control surface 28a is disposed on the surface of the light guide 22 side in the foot portion 28. The light control surface 28a causes light emitted from the light guide 22 and incident on the light control surface 28a to refract into the interior of the foot portion 28. In addition, the light control surface 28a performs internal surface reflection on light emitted from the light source 11 and incident into the interior of the foot portion 28 from the gap 30 side and then incident on the light control surface 28a from the interior side of the foot portion 28. The light control surface 28a extends from the back side to the front side, for example, within a range from the position corresponding to the front side end of the light guide 22 to the back side end of the connecting portion 29.
[0049] The light control surface 28a controls the light reaching it—that is, the light emitted from the light guide 22 and reaching the light control surface 28a, and the light emitted from the fixed side unit 10 towards the gap 30 side and reaching the light control surface 28a from the inside of the foot 28—by reflecting off the inner surface of the surface 28b on the gap 30 side of the foot 28. The light control surface 28a has, for example, a serrated cross-sectional shape. However, the cross-sectional shape of the light control surface 28a is not limited to a serrated shape; it can be any shape as long as it allows for light control as described above. Furthermore, the portion of the surface on the light guide 22 side of the foot 28 other than the portion where the light control surface 28a is located can, for example, have a textured shape.
[0050] In this embodiment, the diameter of the connecting portion 29 is smaller than the diameter of the connecting portion 19 of the outer lens 25 of the fixed side unit 10. This structure prevents the curved portion from extending towards the front (back) side of the foot 28. When the connecting portion 29 is an extended shape towards the front of the foot 28, light controlled by the light control surface 28a is easily reflected by the inner surface of the connecting portion 29. When the light controlled by the light control surface 28a is reflected by the connecting portion 29, it detours to the front side 27 and exits from the front side 27. In this embodiment, since the diameter of the connecting portion 29 of the outer lens 25 is suppressed, it is possible to prevent light controlled by the light control surface 28a from detouring to the front side 27, and it can reliably exit from the front side of the foot 28.
[0051] Next, an example of the operation of the vehicle lamp 100 configured as described above will be explained. When the driver performs a predetermined operation such as operating the vehicle-side turn indicator or the hazard switch, the vehicle lamp 100 emits light from the light source 11 of the fixed-side unit 10 and the light source 21 of the movable-side unit 20, respectively, according to the operation.
[0052] Figure 5 and Figure 6 This is a schematic diagram illustrating an example of the light path when 100% of the vehicle's lights are on. (Example) Figure 5 As shown, light emitted from the light source 11 of the fixed-side unit 10 is incident on the light guide 12 and guided by the light guide 12. A portion of this light is emitted from the light guide 12 towards the front side, passes through the inner front portion 14a of the inner lens 14, and is emitted from the outer front portion 15a of the outer lens 15 towards the front. Thus, the illuminated area AR1 of the outer front portion 15a (see reference) is formed. Figure 7 (The state of being lit up.)
[0053] In addition, such as Figure 5 As shown, light emitted from the light source 21 of the movable side unit 20 is incident on the light guide 22 and guided by the light guide 22. This light exits from the light guide 22, passes through the inner lens 24, and exits from the outer lens 25 towards the front. Thus, the illuminated area AR2 of the outer lens 25 (see reference) becomes the illuminated area. Figure 7 (The state of being lit up.)
[0054] On the other hand, such as Figure 6As shown, a portion of the light L1 guided by the light guide 12, L1a, for example, exits from the light guide 12 and reaches the foot 18 of the outer lens 15. It then enters the interior of the foot 18 through the refractive surface 18a provided on the foot 18. This light L1a passes through the interior of the foot 18, exits towards the gap 30 side, and enters the interior of the foot 28 of the outer lens 25 of the movable side unit 20. From the interior side of the foot 28, it reaches the light control surface 28a. The light L1a is reflected by the light control surface 28a towards the inner surface on the front side. The light L1a travels inside the foot 28, is further reflected by the inner surface of the foot 28 on the gap 30 side, and exits from the front side of the foot 28.
[0055] In addition, such as Figure 6 As shown, a portion of the light L2 guided by the light guide 22, L2a, is emitted from the light guide 22 and reaches the light control surface 28a of the outer lens 25 from the outside. The light L2a reaching the light control surface 28a is refracted by the light control surface 28a toward the front side of the inside of the foot 28. The light L2a travels inside the foot 28, is further reflected by the inner surface through the surface on the side of the gap 30 of the foot 28, and is emitted from the front side of the foot 28.
[0056] Through the aforementioned light L1a and light L2a, the illuminated area AR3 of the outer lens 25 is illuminated.
[0057] Figure 7 This diagram illustrates an example of the illuminated state of vehicle lighting fixture 100. (Example...) Figure 7 As shown, in the vehicle lamp 100, a light control surface 28a is provided to form a illuminated area AR3 on the front side of the foot 28. In this case, the vehicle lamp 100 forms an illuminated area AR1 on the front surface 17 of the outer lens 15 of the fixed side unit 10, an illuminated area AR2 on the front surface 27 of the outer lens 25 of the movable side unit 20, and an illuminated area AR3 on the front side of the foot 28 of the outer lens 25. Therefore, it is possible to provide the viewer with the impression that the illuminated area AR1 and the illuminated area AR2 are connected by the illuminated area AR3.
[0058] As described above, the vehicle lamp 100 according to this embodiment includes: a fixed-side unit 10, which is disposed on the fixed part of a vehicle having a fixed part (vehicle body 2) and a movable part (rear door 7) and illuminates light; and a movable-side unit 20, which is disposed on the movable part with a gap 30 between it and the fixed-side unit 10 and illuminates light. The fixed-side unit 10 includes: a light source 11; a light guide 12, which guides the light from the light source 11; and an outer lens 15, which has a front portion 17 covering the front side of the light guide 12 when mounted in the vehicle and a lens covering the front side of the light guide 12. The movable side unit 20 includes: a light source 21; a light guide 22 that guides the light from the light source 21; and an outer lens 25 that has a front portion 27 covering the front side of the light guide 22 in the vehicle mounting state and a foot 28 covering the side of the light guide 22 on the gap 30 side. The foot 28 has a light control surface 28a on the part facing the light guide 22. The light control surface 28a controls the light emitted from at least one of the light source 11 and the light source 21 and incident on the light control surface 28a to pass through the interior of the foot 28 and be emitted from the front side.
[0059] According to this structure, light emitted from at least one of the light sources 11 and 21 and incident on the light control surface 28a passes through the interior of the foot 28 and exits from the front side, thus forming a illuminated area AR3 on the front side of the foot 28. Specifically, an illuminated area AR1 is formed on the front portion 17 of the outer lens 15 of the fixed-side unit 10, an illuminated area AR2 is formed on the front portion 27 of the outer lens 25 of the movable-side unit 20, and an illuminated area AR3 is formed on the front side of the foot 28. Therefore, the viewer can be given the impression that the illuminated areas AR1 and AR2 are connected by the illuminated area AR3. This enhances the sense of connection between the fixed-side unit 10 and the movable-side unit 20.
[0060] In the vehicle lamp 100 according to this embodiment, the light control surface 28a may also be provided on the portion of the light guide 22 in the foot 28. This results in a structure where the light control surface 28a is not positioned in a location directly visible from the outside, thus avoiding a reduction in aesthetics.
[0061] In the vehicle lamp 100 according to this embodiment, the light control surface 28a can also refract light emitted from the light guide 22 and incident on the light control surface 28a toward the interior of the foot portion 28. As a result, the light emitted from the light guide 22 and reaching the foot portion 28 can be utilized without waste.
[0062] In the vehicle lamp 100 according to this embodiment, the light control surface 28a can also perform internal surface reflection on light emitted from the light source 11 and incident from the gap 30 side into the interior of the foot 28 and then incident from the interior of the foot 28 toward the light control surface 28a. Since the light irradiated from the fixed side unit 10 can be used to illuminate the area AR3, the brightness of the illuminated area AR3 can be sufficiently ensured.
[0063] In the vehicle lamp 100 according to this embodiment, the foot portion 18 may also have a refractive surface 18a that refracts light emitted from the light guide 12 into the interior of the foot portion 18. As a result, light emitted from the light guide 12 and reaching the foot portion 18 can be efficiently supplied to the light control surface 28a side.
[0064] In the vehicle lamp 100 according to this embodiment, the light control surface 28a can also control the light, causing the light reaching the light control surface 28a to undergo inward reflection on the surface on the side of the gap 30 in the foot 28. This allows the light controlled by the light control surface 28a to reliably reach the front side from the inside of the foot 28.
[0065] In the vehicle lamp 100 according to this embodiment, the light control surface 28a may also have a serrated cross-sectional shape when the foot 28 is cut off by a plane parallel to the horizontal plane in the vehicle mounting state. As a result, it is easy to form a structure that can control the light incident on the light control surface 28a to pass through the interior of the foot 28 and be emitted from the front side.
[0066] The scope of the present invention is not limited to the above-described embodiments, and appropriate modifications can be made without departing from the spirit of the invention. For example, in the above embodiments, a structure in which the light control surface 28a controls the supply of light L1a and light L2a to the front side of the foot 28 is described, but it is not limited thereto. The light control surface 28a may also be a structure capable of supplying at least one of light L1a and light L2a to the front side of the foot 28.
[0067] Furthermore, in the above embodiment, the configuration in which a refractive surface 18a is formed on the foot 18 is described as an example, but for example, the refractive surface 18a may not be provided.
[0068] Furthermore, in the above embodiment, an example was described with a structure in which a light control surface 28a is provided on the portion of the foot 28 facing the light guide 22, but this is not a limitation. The light control surface 28a may also be provided on the portion of the foot 28 facing the gap 30.
[0069] Symbol Explanation
[0070] L1, L2, L1a, L2a—Light, AR1, AR2, AR3—Illuminated areas, 1—Vehicle, 2—Body, 7…Rear door, 10—Fixed side unit, 11, 21—Light source, 12, 22—Light guide, 12a—End face, 13, 23—Inner shell, 13a, 28b—Surface, 14, 24—Inner lens, 14a—Inner front face, 15, 25—Outer lens, 15a—Outer front face, 16, 26—Lamp housing, 17, 27—Front face, 18, 28—Foot, 18a—Refracting surface, 19, 29—Connecting part, 20—Movable side unit, 28a—Light control surface, 30—Gap, 100—Vehicle lamp.
Claims
1. A vehicle lamp, characterized in that, It comprises: a fixed-side unit disposed on the fixed part of a vehicle having a fixed part and a movable part, and irradiating light; and a movable-side unit disposed on the movable part with a gap between it and the fixed-side unit, and irradiating light. The fixed-side unit has: First light source; The first light guide guides the light from the first light source; as well as The first outer lens has a first front portion that covers the front side of the first light guide in a vehicle-mounted state, a first foot portion that covers the side of the first light guide on the gap side, and a first connecting portion that connects the first foot portion to the first front portion and has a rounded corner shape when cut by a plane parallel to the horizontal plane in the vehicle-mounted state. The movable side unit has: Second light source; The second light guide guides the light from the second light source; as well as The second outer lens has a second front portion that covers the front side of the second light guide in the vehicle-mounted state, a second foot portion that covers the side of the gap of the second light guide, and a second connecting portion that connects the second foot portion to the second front portion and has a rounded corner shape when cut by a plane parallel to the horizontal plane in the vehicle-mounted state. The diameter of the second connecting portion is smaller than the diameter of the first connecting portion. The second foot has a light control surface on the portion facing the second light guide. The light control surface is controlled such that light emitted from at least one of the first light source and the second light source and incident on the light control surface passes through the interior of the second foot and exits from the front side of the second foot.
2. The vehicle lighting fixture according to claim 1, characterized in that, The light control surface is disposed on the portion of the second foot facing the second light guide.
3. The vehicle lighting fixture according to claim 2, characterized in that, The light control surface causes the light emitted from the second light guide and incident on the light control surface to refract into the interior of the second foot.
4. The vehicle lighting fixture according to claim 2, characterized in that, The light control surface performs internal surface reflection of light emitted from the first light source and incident from the gap side into the interior of the second foot, and from the interior side of the second foot into the light control surface.
5. The vehicle lighting fixture according to claim 4, characterized in that, The first foot has a refractive surface that refracts light emitted from the first light guide into the interior of the first foot.
6. The vehicle lamp according to claim 2, characterized in that, The light control surface controls the light by reflecting the light reaching the light control surface inward on the surface of the gap side in the second foot.
7. The vehicle lighting fixture according to claim 1, characterized in that, When the light control surface is mounted in a vehicle and the second foot is cut by a plane parallel to the horizontal plane, the cross-sectional shape is serrated.