KR102555372B1 - Lamp for vehicle - Google Patents

Abstract

The present invention relates to a vehicle lamp, and more particularly, to a vehicle lamp capable of simplifying a configuration required for forming a beam pattern.
A vehicle lamp according to an embodiment of the present invention includes a light source unit; and a light guide unit configured to emit light incident from the light source unit to form a predetermined beam pattern, wherein the light guide unit includes: an incident unit into which light is incident from the light source unit; an emitting unit positioned in front of the incident unit to emit light incident to the incident unit; and a transmission unit that transmits light incident to the incident unit to the output unit, wherein the transfer unit has one surface positioned at a rear focal point of the output unit and the other end extending forward along an optical axis of the output unit. .

Description

Lamp for vehicle {Lamp for vehicle}

The present invention relates to a vehicle lamp, and more particularly, to a vehicle lamp capable of simplifying a configuration required for forming a beam pattern.

In general, vehicles are provided with various types of lamps having a lighting function for easily identifying an object located around the vehicle during night driving and a signal function for notifying other vehicles or road users of the driving state of the vehicle.

For example, head lamps and fog lamps are mainly for lighting functions, and turn signal lamps, tail lamps, brake lamps, side markers, etc. are mainly for signal functions. Its installation standards and standards are stipulated by laws and regulations to fully demonstrate its functions.

The vehicle lamp promotes safe driving by forming an appropriate beam pattern according to the driving environment of the vehicle. For example, the head lamp forms a low beam pattern or a high beam pattern to secure the driver's forward vision during night driving. do.

Vehicle lamps require various components, such as a reflector or shield, as well as a light source according to a beam pattern so that an appropriate beam pattern can be formed according to the driving environment of the vehicle. As a result, there is a limit to reducing the size of the vehicle lamp.

Therefore, there is a demand for a method of simplifying the configuration of a vehicle lamp so that an appropriate beam pattern is formed while reducing the size.

Publication No. 10-2013-0081352 (published on July 17, 2013)

The present invention has been devised to solve the above problems, the technical problem to be achieved by the present invention is to provide a lamp for a vehicle so that a suitable beam pattern is formed while simplifying the configuration.

In addition, it is to provide a vehicle lamp capable of improving the exterior design by forming a visual effect along with a beam pattern.

The tasks of the present invention are not limited to the tasks mentioned above, and other tasks not mentioned will be clearly understood by those skilled in the art from the following description.

A vehicle lamp according to an embodiment of the present invention in order to achieve the above object, the light source unit; and a light guide unit configured to emit light incident from the light source unit to form a predetermined beam pattern, wherein the light guide unit includes: an incident unit into which light is incident from the light source unit; an emitting unit positioned in front of the incident unit to emit light incident to the incident unit; and a transmission part for transmitting light incident to the incident part to the emission part, wherein one surface of the transmission part is formed to extend forward from one end positioned at a rear focal point of the emission part along the optical axis of the emission part to the other end. .

Other specific details of the invention are included in the detailed description and drawings.

According to the vehicle lamp of the present invention as described above, there are one or more of the following effects.

Since light incident from the light source unit can be guided and emitted from the inside through the light guide unit to form a beam pattern of a desired shape, the configuration can be simplified.

In addition, since a separate visual effect can be added through the light guide unit, the configuration is simplified and the exterior design can be improved.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 and 2 are perspective views showing a vehicle lamp according to an embodiment of the present invention.
Figure 3 is a side view showing a vehicle lamp according to an embodiment of the present invention.
Figure 4 is a cross-sectional view showing a lamp for a vehicle according to an embodiment of the present invention.
Figure 5 is a plan view showing a lamp for a vehicle according to an embodiment of the present invention.
Figure 6 is a schematic diagram showing the optical axis and focus of the vehicle lamp according to an embodiment of the present invention.
Figure 7 is a perspective view showing a lamp for a vehicle according to another embodiment of the present invention.
8 is a schematic diagram showing a light path of a vehicle lamp according to an embodiment of the present invention.
Figure 9 is a schematic diagram showing a beam pattern formed by a vehicle lamp according to an embodiment of the present invention.
10 is a schematic diagram showing a light path by an optical unit according to an embodiment of the present invention.

Advantages and features of the present invention, and methods for achieving them, will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only the present embodiments make the disclosure of the present invention complete, and common knowledge in the art to which the present invention belongs It is provided to fully inform the holder of the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numbers designate like elements throughout the specification.

Thus, in some embodiments, well-known processing steps, well-known structures, and well-known techniques have not been described in detail in order to avoid obscuring the interpretation of the present invention.

Terms used in this specification are for describing embodiments and are not intended to limit the present invention. In this specification, singular forms also include plural forms unless specifically stated otherwise in a phrase. The terms "comprises" and/or "comprising" as used in the specification do not preclude the presence or addition of one or more other components, steps and/or operations other than those mentioned. use as And "and/or" includes each and every combination of one or more of the recited items.

In addition, the embodiments described in this specification will be described with reference to perspective views, cross-sectional views, side views and/or schematic views, which are ideal exemplary views of the present invention. Accordingly, the shape of the illustrative drawings may be modified due to manufacturing techniques and/or tolerances. Therefore, embodiments of the present invention are not limited to the specific shapes shown, but also include changes in shapes generated according to manufacturing processes. In addition, in each drawing shown in the embodiment of the present invention, each component may be shown somewhat enlarged or reduced in consideration of convenience of description.

Hereinafter, the present invention will be described with reference to drawings for explaining a vehicle lamp and a lamp assembly including the same according to embodiments of the present invention.

1 and 2 are perspective views showing a vehicle lamp according to an embodiment of the present invention, Figure 3 is a side view showing a vehicle lamp according to an embodiment of the present invention, Figure 4 is a vehicle lamp according to an embodiment of the present invention A cross-sectional view of a lamp, and FIG. 5 is a plan view of a lamp for a vehicle according to an embodiment of the present invention.

1 to 5 , a vehicle lamp 1 according to an embodiment of the present invention may include a light source unit 100 and a light guide unit 200.

Vehicle lamps 1 according to an embodiment of the present invention are installed on both sides of the front of the vehicle so that the front view of the vehicle is secured by irradiating light in the driving direction of the vehicle when the vehicle is driving at night or in a dark place such as a tunnel. A case in which a head lamp is used will be described as an example, but it is not limited thereto, and the vehicle lamp 1 of the present invention is not only used as a head lamp, but also a tail lamp, a brake lamp, a fog lamp, a position lamp, a turn It can be used as a lamp for various purposes installed in a vehicle, such as a signal lamp, a daytime running lamp, and a backup lamp.

When the vehicle lamp 1 of the present invention is used for the purpose of a head lamp, the vehicle lamp 1 of the present invention has a low beam pattern having a predetermined cut-off line so that glare does not occur to the driver of a preceding vehicle or an oncoming vehicle However, it is possible to form a high beam pattern to ensure a long-distance view in front of the vehicle.

Hereinafter, in an embodiment of the present invention, a case in which the vehicle lamp 1 forms a low beam pattern having a predetermined cut-off line will be described as an example. In this case, the vehicle lamp 1 of the present invention is a high beam Can be installed with lamps forming a pattern.

The light source unit 100 may include at least one light source generating light having an amount or color suitable for the purpose of the vehicle lamp 1 of the present invention, and in an embodiment of the present invention, at least one light source such as LED. Although a case in which a semiconductor light emitting device is used is described as an example, it is not limited thereto and various types of light sources such as a bulb may be used as at least one light source.

The light source unit 100 may be positioned such that an optical axis Ax1 intersects an optical axis Ax2 of the emitting unit 220 to be described later. Although the case where light is generated in the front upper side is described as an example, the light source unit 100 may be located in the rear upper side of the light guide unit 200 without being limited thereto.

In this case, the optical axis Ax1 of the light source unit 100 may be understood as a line perpendicularly passing through the center of a light emitting surface where light is generated from at least one light source.

The light guide unit 200 may play a role of forming a beam pattern suitable for the purpose of the vehicle lamp 1 of the present invention by guiding light incident from the light source unit 100 to be emitted from the inside.

The light guide unit 200 may include an input unit 210, an output unit 220, and a transfer unit 230, and in an embodiment of the present invention, the input unit 210, the output unit 220, and the transfer unit. A case in which the 230 is integrally formed will be described as an example, but it is not limited thereto, and at least one of the input unit 210, the output unit 220, and the transmission unit 230 may be separately located.

The incident part 210 may include a first incident surface 211 , a second incident surface 212 , and a reflective surface 213 .

The first incident surface 211 is positioned so that the optical axis Ax1 of the light source unit 100 passes through the center and is formed to have a convex shape toward the light source unit 100, so that the light incident from the light source unit 100 passes through the light source unit 100. The light incident on the first incident surface 211 may be condensed by advancing closer to the optical axis Ax1 of the light source unit 100 as the distance from the light source unit 100 along the optical axis Ax1 of the light source unit 100 increases.

The second incident surface 212 may be formed along the circumference of the first incident surface 211, and among the light generated from the light source unit 100, light outside a set range based on the optical axis Ax1 of the light source unit 100 this can be entered.

That is, among the light generated from the light source unit 100, light generated within a set range based on the optical axis Ax1 of the light source unit 100 is incident to the first incident surface 211, and light outside the set range is second incident. It can be understood that it is incident on the surface 212, and for this purpose, the second incident surface 212 may be formed to protrude from the outer circumferential end of the first incident surface 211 toward the light source unit 100.

As such, when the second incident surface 212 is formed to protrude from the outer circumferential end of the first incident surface 211 toward the light source unit 100, an area into which light is incident from the light source unit 100 can be reduced.

In other words, in order for the light generated from the light source unit 100 to be incident through the first incident surface 211 without loss as much as possible, the first incident surface 211 corresponds to the range in which light is generated from the light source unit 100. Since it must have an area, it needs to have a relatively large area, but when the second incident surface 212 is formed to protrude from the outer circumferential end of the first incident surface 211 toward the light source unit 100, the area is relatively small. While having , light generated from the light source unit 100 can be incident without loss as much as possible.

The reflective surface 213 is formed to extend in a direction away from the light source unit 100 along the optical axis Ax1 of the light source unit 100 from the protruding end of the second incident surface 212, that is, the end protruding toward the light source unit 100. The reflective surface 213 may be formed such that the separation distance from the optical axis Ax1 of the light source unit 100 increases as the distance from the light source unit 100 increases.

At this time, the reflective surface 213 is formed so that the distance away from the optical axis Ax1 of the light source unit 100 increases as the distance from the light source unit 100 increases to collect the light incident on the second incident surface 212. This is to allow the light incident on the second incident surface 212 to proceed closer to the optical axis Ax1 of the light source unit 100 as the distance from the light source unit 100 increases.

In the embodiment of the present invention, as shown in FIG. 6 , the light source unit 100 is located at the first focal point F1 of the reflective surface 213, and the second focal point F2 of the reflective surface 213 is at the rear side of the emitting unit 220. A case of being located at the focal point F will be described as an example, whereby the light incident to the incident part 210 can be focused on the rear focal point F of the emitting part 220.

In addition, in the embodiment of the present invention, the light source unit 100 has an optical axis Ax1 of the first focal point F1 of the reflecting surface 213, the second focal point F2 of the reflecting unit 213, and the emitting unit 220. A case of being positioned to pass through the back focal point F will be described as an example, which can be understood as for condensing light incident from the light source unit 100 .

The emitting unit 220 is positioned in front of the incident unit 210 so that at least some of the light incident to the incident unit 210 is emitted, and in the embodiment of the present invention, various lens characteristics can be implemented as the emitting unit 220. A case in which an aspherical lens that can be used will be described as an example, but it is not limited thereto, and various types of lenses may be used for the emitting unit 220 according to required lens characteristics.

The transmission unit 230 may serve to transmit at least a portion of the light incident to the incident unit 210 to the emission unit 220 .

The transmission part 230 may be formed to extend forward and backward along the optical axis Ax2 of the emission part 220, and the transmission part 230 is formed from one end located at the rear focal point F of the emission part 220. A first extension surface 231 formed so that the other end extends forward and a second extension surface 232 spaced apart from the optical axis Ax2 of the emitter 220 compared to the first extension surface 231 . can do.

The first extension surface 231 and the second extension surface 232 are surfaces facing each other among outer surfaces of the transmission unit 230, and in the embodiment of the present invention, the light source unit 100 is the rear side of the light guide unit 200. Since the case of being located on the lower side is described as an example, the first extension surface 231 will be described as an example of the case of being located on the upper side compared to the second extension surface 232, but it is not limited thereto. 1 extension surface 231 may be located in a direction in which light from the outside, such as sunlight, is incident.

An edge portion 231a for forming a cut-off line of a beam pattern formed by the vehicle lamp 1 of the present invention may be formed at one end of the first extension surface 231, and the edge portion 231a The shape may be determined by the stepped shape of one end of the first extension surface 231 .

The edge portion 231a may be formed to extend in the left and right directions based on the rear focal point F of the emitting portion 220, and in FIGS. 1 and 2 described above, the edge portion 231a is formed horizontally in the left and right directions Although the case is described as an example, it is not limited thereto, and the edge portion 231a may be formed to have a step in the left and right directions with respect to the rear focal point F of the emitting portion 220 as shown in FIG. 7 .

In the embodiment of the present invention, the case where the edge portion 231a is formed to be horizontal or have a step has been described as an example, but this is only an example to help understanding of the present invention, and is not limited thereto, and the edge portion ( 231a) may have various shapes according to the shape of the cut-off line.

Since one end of the first extension surface 231 is located at the rear focal point F of the emitting part 220, the other end of the first extension surface 231 is spaced apart from the optical axis Ax2 of the emitting part 220. As a result, at least a portion between both ends of the first extension surface 231 is located in the opposite direction to the second extension surface 232 based on the optical axis Ax2 of the emitting unit 220 .

Meanwhile, the first extension surface 231 may have a reflection portion 231b formed in front of the edge portion 231a to reflect at least a portion of light incident to the incident portion 210 to the emission portion 220 .

The reflector 231b may be formed in an area extending forward from the edge portion 231a, and light reflected from a position close to the edge portion 231a among the reflector 231b is a rear focus of the emitter 220. It is close to (F) to form a high-intensity area of the beam pattern, and the light reflected at a location far from the edge portion 231a of the reflector 231b is moved away from the rear focal point F of the emitter 220 This may form a spread area of the beam pattern.

In the embodiment of the present invention, since the reflector 231b is formed to extend forward from the edge portion 231a, the structure for reflecting the light incident to the incident portion 210 to the emitter 220 is the edge portion 231a It is possible to reduce the overall size of the vehicle lamp 1 of the present invention compared to the case of being spaced apart from.

8 is a schematic diagram showing a light path of a vehicle lamp according to an embodiment of the present invention.

Referring to FIG. 8 , light generated from the light source unit 100 is incident through the first incident surface 211 and the second incident surface 212 of the incident part 210, and is incident on the first incident surface 211. The light L1 is condensed to the rear focal point F of the emitter 220 and its vicinity, and the light rays L2 and L3 incident on the second incident surface 212 are reflected by the reflective surface 213 and emitted. Light may be condensed to the rear focal point F of the portion 220 and its vicinity.

The light (L1, L2, L3) that is incident to the incident part 210 and is condensed to the rear focal point F of the emitting part 220 and its vicinity is directed to the reflection part 231b extending forward from the edge part 231a. may be reflected to the emission unit 220 by

At this time, among the lights L1, L2, and L3 incident to the incident part 210, the light beams L1 and L2 reflected by a region relatively close to the edge part 231a in the reflection part 231b are the beams of FIG. A high-illuminance region A1 is formed in the pattern P, and the light L3 reflected by an area relatively far from the edge portion 231a in the reflector 231b is spread in the beam pattern P ( A2) is formed.

The beam pattern P of FIG. 9 is an example of a low beam pattern having a cut-off line having a step in the left-right direction, and is similar to the case of having a horizontal cut-off line in the left-right direction as in FIGS. 1 and 2 described above. can be applied

On the other hand, the first extension surface 231 includes an optical unit 231c including a plurality of optical elements 231d and 231e that reflect light incident from the outside, such as sunlight, in a plurality of different directions, and a reflection unit 231b. ) can be formed in front of.

The plurality of optical elements 231d and 231e may be divided into a first optical element 231d and a second optical element 231e that reflect light incident from the outside in different directions.

In an exemplary embodiment of the present invention, the first optical element 231d is an optical element that reflects light to an external observation point, and the second optical element 231e is an optical element that does not reflect light to an external point of view. As a general term, the optical elements referred to by the first optical element 231d and the second optical element 231e may vary according to external observation points.

That is, each optical element included in the optical unit 231c may serve as one of the first optical element 231d and the second optical element 231e according to an external observation point.

In the embodiment of the present invention, the plurality of optical elements 231d and 231e may be understood as mutually discontinuous surfaces formed on at least a part of the first extension surface 231, and these discontinuous surfaces are the first extension surface. It may be formed by processing the surface of 231, or it may be formed separately and attached to the first extension surface 231.

The plurality of optical elements 231d and 231e described above directs light EL incident from the outside in different directions as shown in FIG. 10 when the vehicle lamp 1 of the present invention is turned off, that is, when the vehicle is running during the day. Among them, some areas may have a higher brightness than other areas due to the light reflected by the optical elements included in the first optical element 231d, so that a visual effect such as a sense of jewelry may be given. This is to be able to improve the exterior design even when the vehicle lamp 1 of the present invention is turned off.

Those skilled in the art to which the present invention pertains will understand that the present invention can be embodied in other specific forms without changing its technical spirit or essential features. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting. The scope of the present invention is indicated by the following claims rather than the detailed description above, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts should be construed as being included in the scope of the present invention. do.

100: light source unit 200: light guide unit
210: entrance part 211: first entrance surface
212: second incident surface 213: reflective surface
220: exit unit 230: delivery unit
231: first extension surface 231a: edge portion
231b: reflector 231c: optical unit
231d, 231e: optical element 232: second extension surface

Claims (12)

light source; and
A light guide unit configured to emit light incident from the light source unit to form a predetermined beam pattern;
The light guide part,
an incident part into which light is incident from the light source part;
an emitting unit positioned in front of the incident unit to emit light incident to the incident unit; and
A transmission unit for transmitting the light incident to the incident unit to the output unit;
The delivery unit,
One side is formed so that the other end extends forward along the optical axis of the emitting unit from one end located at the rear focal point of the emitting unit,
The delivery unit,
a first extension surface extending forward from one end located at the rear focal point of the emission unit to the other end; and
A second extension surface positioned apart from the optical axis of the emitting unit compared to the first extension surface;
The delivery unit,
A vehicle lamp comprising an optical unit including a plurality of optical elements formed on the first extension surface and reflecting light incident from the outside in a plurality of different directions. According to claim 1,
The entrance part,
at least one incident surface on which light is incident from the light source unit; and
A vehicle lamp comprising a reflective surface for reflecting at least some of the light incident on the at least one incident surface to be closer to an optical axis of the light source unit as the distance from the light source unit increases along the optical axis of the light source unit. According to claim 2,
The at least one incident surface,
a first incident surface whose center is located on the optical axis of the light source unit; and
A second incident surface formed to protrude toward the light source unit along a circumference of the first incident surface,
The reflective surface is
A vehicle lamp formed to be further away from the optical axis of the light source unit as the distance from the light source unit along the optical axis of the light source unit from the protruding end of the second incident surface. According to claim 2,
The light source unit,
Located at the first focal point of the reflective surface,
The second focal point of the reflective surface is,
Vehicle lamp located at the rear focal point of the emission unit. delete According to claim 1,
At least a part of the first extension surface,
A vehicle lamp located in a direction opposite to the second extension surface based on the optical axis of the emission part. delete delete delete delete delete According to claim 1,
The plurality of optical elements,
a first optical element that reflects light to an external viewing point; and
A vehicle lamp comprising a second optical element for reflecting light in a different direction from the first optical element.

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