KR20180111025A - Lamp for vehicle - Google Patents

Abstract

The present invention relates to a lamp for a vehicle that is capable of forming a lamp image having uniform brightness. According to the present invention, the lamp for a vehicle includes: a first light guiding part having an incident portion formed on one surface thereof to allow light from a light source to be incident thereonto and a reflecting portion formed on the other end thereof to have a concave shape from an opening; a second light guiding part having an emitting portion formed to emit the light guided by the first light guiding part; and a light path changing part for changing a light path to allow the light guided by the first light guiding part to move to the second light guiding part, wherein the light path changing part includes a plurality of reflective patterns arranged in the direction of the emitting portion formed at different angles in the center line connecting the center of one end toward the second light guiding part and the light axis of the light source, and the plurality of reflective patterns are determined by the line connecting both sides of one end and the light axis of the light source.

Description

Lamp for vehicle

The present invention relates to a vehicle lamp, and more particularly, to a vehicle lamp capable of forming a lamp image having uniform brightness.

2. Description of the Related Art [0002] Generally, a vehicle has various lamps having a lighting function for easily identifying an object located in the vicinity of the vehicle at nighttime, and a signal function for notifying other vehicles or road users of the traveling state of the vehicle.

For example, head lamps and fog lamps are mainly aimed at lighting functions, and turn signal lamps, tail lamps, brake lamps, and side markers are mainly used for signal functions.

In addition, a room lamp that is turned on in conjunction with the opening of the door and a map lamp that can be used to view a map or a book are additionally provided in the interior of the vehicle.

In addition to lighting and signal functions, automotive lamps are considered to be very important for the appearance of the vehicle. Particularly, in the case of a head lamp or a tail lamp, it is a major factor for determining the appearance of the vehicle at night.

In this way, as the performance of the vehicle lamp as well as the appearance design of the vehicle lamp become more and more important, there is an increasing demand for a vehicle lamp having various appearance designs satisfying the requirements of the lighting function and the signal function. There is an increasing tendency to use a light guide which can be formed into a light guide.

The light guide guides the light incident from the light source inside and emits it, and has a characteristic that the light loss as a whole is small and the spectrum of emitted light is excellent.

In order for the light guide to emit light having a uniform brightness throughout the light guide in order to improve the visibility while satisfying the light distribution condition, in order to emit light having a uniform brightness from the light guide, It is required to secure a distance at which light incident from the light source can be sufficiently diffused. However, in the case of increasing the number of light sources, the cost is increased and the size is increased in order to sufficiently diffuse the light.

Accordingly, there is a demand for a method of sufficiently diffusing light while preventing the increase in size, while allowing a light of a uniform brightness to be entirely emitted while using a relatively small number of light sources.

Japanese Patent Application Laid-Open No. 10-2013-0002522 (2013.01.08)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a lamp for a vehicle which reduces the number of light sources and emits light having uniform brightness as a whole.

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

In order to achieve the above object, a lamp for a vehicle according to an embodiment of the present invention includes a first light guiding part having a light incident part formed on one surface thereof for receiving light from a light source and a reflective part having a concave shape from an opening on the other surface, A second light guiding part having an output part for emitting light guided by the first light guiding part and an optical path changing part for changing the optical path so that the light guided by the first light guiding part proceeds to the second light guiding part, The optical path changing section includes a plurality of reflection patterns having different angles from a center of one end toward the second light guiding section and a center line connecting the optical axis of the light source and arranged along the forming direction of the emitting section, The region is determined by a line connecting the both ends and the optical axis of the light source.

The details of other embodiments are included in the detailed description and drawings.

The vehicle lamp of the present invention has one or more of the following effects.

Since the light can be sufficiently diffused while reducing the number of light sources, a lamp image having uniform brightness can be formed as a whole, thereby reducing the cost and increasing the size.

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

1 and 2 are perspective views showing a lamp for a vehicle according to an embodiment of the present invention.
3 is a front view of a vehicle lamp according to an embodiment of the present invention.
4 is a rear view of a vehicle lamp according to an embodiment of the present invention.
5 is a plan view showing a lamp for a vehicle according to an embodiment of the present invention.
6 and 7 are sectional views showing a lamp for a vehicle according to an embodiment of the present invention.
8 is a schematic view showing an optical path changing portion according to an embodiment of the present invention;
9 is a schematic view of a reflection pattern according to an embodiment of the present invention.
FIG. 10 and FIG. 11 are schematic diagrams showing optical paths traveling by the optical path changing unit according to the embodiment of the present invention; FIG.
12 is a schematic view showing a lighting image formed by a vehicle lamp according to an embodiment of the present invention;
13 is a schematic view showing an optical path by a reflecting surface according to an embodiment of the present invention;

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Thus, in some embodiments, well known process steps, well-known structures, and well-known techniques are not specifically described to avoid an undue interpretation of the present invention.

The terminology used herein is for the purpose of illustrating embodiments and is not intended to be limiting of the present invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. It should be understood that the terms comprising and / or comprising the terms used in the specification do not exclude the presence or addition of one or more other components, steps and / or operations other than the stated components, steps and / . And "and / or" include each and any combination of one or more of the mentioned items.

Further, the embodiments described herein will be described with reference to the perspective view, cross-sectional view, side view, and / or schematic views, which are ideal illustrations of the present invention. Thus, the shape of the illustrations may be modified by manufacturing techniques and / or tolerances. Accordingly, the embodiments of the present invention are not limited to the specific forms shown, but also include changes in the shapes that are generated according to the manufacturing process. In addition, in the drawings of the present invention, each constituent element may be somewhat enlarged or reduced in view of convenience of explanation.

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

FIG. 3 is a front view of a vehicle lamp according to an embodiment of the present invention, and FIG. 4 is a front view of a vehicle lamp according to an embodiment of the present invention. FIG. 5 is a plan view of a vehicle lamp according to an embodiment of the present invention, and FIGS. 6 and 7 are sectional views showing a lamp for a vehicle according to an embodiment of the present invention.

1 to 7, a vehicle lamp 1 according to an embodiment of the present invention may include a first light guiding part 100, a second light guiding part 200, and an optical path changing part 300.

In the embodiment of the present invention, the vehicle lamp 1 can be used for various lamps installed in a vehicle such as a head lamp, a tail lamp, a brake lamp, a fog lamp, a turn signal lamp, a position lamp, have. Further, in the embodiment of the present invention, the vehicle lamp 1 may be used together for two or more purposes, and the brightness or hue of light may be changed according to each application.

The first light guiding portion 100 includes a plurality of light incidence portions 110 on which light emitted from a plurality of light sources 110a is incident on one surface of the first light guiding portion 100. The plurality of light incidence portions 110 are formed on the other surface, The plurality of reflection portions 120 may be arranged in the same direction as the plurality of the incidence portions 110. The plurality of reflection portions 120 may be arranged in the same direction as the plurality of incidence portions 110,

One surface of the first light guiding portion 100 refers to a rear surface with respect to a direction in which light is emitted from the vehicle lamp 1 of the present invention and the other surface of the first light guiding portion 100 corresponds to the vehicle lamp 1 ". < / RTI >

Hereinafter, an incident portion and a reflection portion corresponding to each other among a plurality of incident portions 110 and a plurality of reflection portions 120 will be described in the embodiment of the present invention, It is possible to apply the same only with some difference in the position of the bank formation.

The incidence part 110 may be inclined so that the cross-sectional area of the incidence part 110 increases from one side closer to the light source 110a to the first light guide part 100. This is because a part of the light generated from the light source 110a is incident on the incidence part 110, The light generated from the light source 110a can be transmitted to the reflection unit 120 without leaving the reflection unit 120, It is to reduce the loss.

In the embodiment of the present invention, a semiconductor light emitting device such as an LED is used as the light source 110a. However, the light source 110a is not limited to a semiconductor light emitting device but may be a bulb Various types of light sources can be used.

The reflective portion 120 may have a conical shape and may be concave from the opening 120a on the other surface of the light guide portion 100. The inner center 120b of the reflective portion 120 may be formed on the optical axis of the light source 110a Ax. ≪ / RTI >

At least a part of the surface extending from the inner center 120b to the outer circumferential end of the opening 120a may reflect the light incident on the incident portion 110 to the second light guide portion 200 have.

The reflective portion 120 may have a portion of the surface extending from the inner center 120b to the outer circumferential edge of the opening 120a toward the second light guide portion 200 with respect to the inner center 120b The case where the light incident on the incident portion 110 is reflected to the second light guiding portion 200 and the other portion of the incident light is reflected irregularly will be described as an example, The entire surface of the reflective portion 120 extending from the inner center 120b to the outer peripheral edge of the opening 120a may reflect light to the second light guide portion 200. [

The second light guiding part 200 may include an output part 210 through which light guided by the first light guiding part 100 is emitted. In the embodiment of the present invention, the light guiding part 210 has a straight shape The present invention is not limited thereto. The output unit 210 may be a straight line, a curved line, or a combination thereof (e.g., a rectangle, a curved line, or a combination thereof). The output unit 210 may include a first output region 211 and a second output region 212 having a curved shape. And the like.

The first light guide unit 100 guides light in a direction perpendicular to the optical axis Ax of the light source 100 through the reflection unit 120 and the second light guide unit 200 guides light in the first direction And is formed so as to extend forward from the light guiding portion 100. This is to provide a distance at which light can be sufficiently diffused so that the vehicle lamp 1 of the present invention has a uniform brightness, The total size is relatively small and the effect of extending the optical path can be obtained, so that a sufficient diffusion effect can be obtained while using a relatively small number of light sources, thereby reducing the cost.

6 and 7, the second light guiding unit 200 may totally guide the light guided by the first light guiding unit 100 to the output unit 210, At least a part of the light guided by the second light guiding portion 200 is emitted to form a light image.

6 is an example of a case where light is emitted through the first emission region 211, and FIG. 7 is an example of a case where light is emitted through the second emission region 212. FIG.

The second light guide unit 200 may have at least one reflection surface 220 on one side thereof for reflecting part of the light guided to the output unit 210 through the second light guide unit 200 to the other side At least one reflecting surface 220 may be formed with at least one lit image having a shape corresponding to the shape of the at least one reflecting surface 220 together with the lit image formed by the emitting portion 210 .

Hereinafter, the lit image formed by the emitting unit 210 in the embodiment of the present invention will be referred to as a first lit image, and the lit image formed by the at least one reflecting plane 220 will be referred to as a second lit image .

At least one reflecting surface 220 is a region to be processed so that the total reflection condition of the light totally reflected and guided through the inside of the second light guiding portion 200 is not satisfied. In the embodiment of the present invention, The light reflected by the at least one reflecting surface 220 through the etching process is emitted to the other surface of the second light guide unit 200 without being totally reflected.

Here, one surface of the second light guide unit 200 refers to the rear surface, and the other surface of the second light guide unit 200 refers to the front surface, based on the direction in which the light is emitted from the vehicle lamp 1 of the present invention.

The optical path changing unit 300 may function to change the optical path by reflecting the light so that the light guided by the first light guiding unit 100 proceeds to the second light guiding unit 200.

8 is a rear view of the optical path changing unit according to the embodiment of the present invention.

8, the optical path changing part 300 according to the embodiment of the present invention may be formed along the periphery of the first light guiding part 100 to correspond to the shape of the emitting part 210, 300 may include a first reflective region 310 that reflects light to a first exit region 211 and a second reflective region 320 that reflects light to a second exit region 212.

The optical path changing portion 300 includes the first reflection region 310 and the second reflection region 320 in the present embodiment because the emission portion 210 has the first emission region 211 having a different shape, And the second emission region 212. Either the first reflection region 310 or the second reflection region 320 may be omitted in the shape of the emission unit 210. [

For example, the second reflection region 320 may be omitted if the entire outgoing unit 210 has a straight line shape, and the first reflection region 310 may be omitted when the entire outgoing unit 210 has a curved shape. Can be omitted.

The first reflection region 310 may reflect light to the first emission region 310 having a straight line shape and the first reflection region 310 may reflect light reflected to the first emission region 310 So that the brightness of the light emitted from the first emission region 310 can be made uniform.

In the embodiment of the present invention, the light reflected by the first reflection region 310 uniformly propagates to each other, which means that the light uniformly reaches the entire first emission region 310. The first reflection region 310 The light emitted from the first emission region 310 may be transmitted to the first emission region 310 in a uniform manner.

The first reflection region 310 is arranged along the formation direction of the first emission region 310 so that the light radially reflected from the conical reflection portion 120 can be uniformly reflected to the first emission region 310 And each of the pattern regions 310 may include a plurality of reflection patterns 311a arranged in the direction of forming the first emission region 310. [

Each of the plurality of pattern regions 311 may serve to allow the light reflected by each of the plurality of the reflection portions 120 to proceed to the second light guide portion 200. In the embodiment of the present invention, One of the areas 311 will be described by way of example, but the remaining pattern areas may have the same role as the area size and the number of reflection patterns.

The plurality of reflection patterns 311a may be positioned such that one end thereof faces the second light guide unit 200 and the other end lower than the one end thereof faces the first light guide unit 100, The second light guiding part 200 and the optical path changing part 300 may be positioned such that one end thereof facing the second light guiding part 200 abuts the boundary line B of the second light guiding part 200 and the optical path changing part 300.

In the embodiment of the present invention, the other end of the plurality of reflection patterns 311a is positioned at the rear lower side of the one end, because the light guided upward by the first light guiding portion 100 in the direction perpendicular to the optical axis Ax of the light source 110a The second light guiding portion 200 extends forward from the upper end of the first light guiding portion 100 and the positions of both ends of the plurality of reflection patterns 311a are different from the positions of the second light guiding portion 200 One end and the other end may be positioned so as to have a step difference from each other.

The boundary line B of the second light guiding unit 200 and the optical path changing unit 300 may have a shape corresponding to the shape of the output unit 210. For example, The first reflection area 311a may include a straight line section B1 corresponding to the first emission area 211 and a curved section B2 corresponding to the second emission area 212 having a curved shape, One end toward the light guiding portion 200 may be positioned to abut the linear section B1 and the other end may be positioned to have a different distance from the optical axis Ax of the light source 110a.

Each of the plurality of reflection patterns 311a is formed by center lines A1 and A2 connecting an optical axis Ax of the light source 110a and a center of one end abutting the straight line section B1 according to the distance from the optical axis Ax of the light source 110a. May be formed to have an angle different from a predetermined reference line R passing the optical axis Ax of the light source 110a because the light radially reflected by the reflecting portion 120 is uniformly incident on the second light guide It can be understood that the angle of reflection of the light radially by the reflection portion 120 is considered in order to be reflected to the portion 200.

The case where the reference line R passes through the optical axis Ax of the light source 110a and is perpendicular to the straight line section B1 will be described as an example but the present invention is not limited thereto. May be an arbitrary line passing through the optical axis Ax perpendicular to the optical axis Ax of the light source 110a.

That is, as the traveling light reflected by the reflecting portion 120 becomes light with a small angle formed by the reference line R, the light is reflected by the reflection pattern at a position near the reference line R and the angle formed with the reference line R is large The more the light is, the more the reflection pattern can be reflected by the reflection pattern distant from the reference line (R).

For example, when the angle formed by the light reflected by the reflection pattern having the center line A1 having the angle? 1 with the reference line R, of the proceeding light reflected by the reflection portion 120, It can be understood that the angle formed between the reference line R and the light reflected by the reflection pattern having the center line A2 which is larger than? 2 is larger.

The area of each of the plurality of reflection patterns 311a in the embodiment of the present invention is such that two circles C1 and C2 having different radiuses around the optical axis Ax are located at two points The present invention is not limited to this. For example, a plurality of reflection patterns (P1, P2) may be defined by a line connecting the optical axis (P1, P2) 311a may be variously changed according to the angle at which the light is reflected by the reflecting portion 120. [

As described above, in the embodiment of the present invention, one end of the plurality of reflection patterns 311a formed in the first reflection region 310, which reflects the light reflected by the reflection portion 120 to the first emission region 211, And the center line of each reflection pattern 311a is formed so as to have an angle different from that of the reflection portion 311a and is formed in a radial direction from the reflection portion 120. [ The brightness of the light emitted through the first emission region 211 can be made uniform because the light L reflected by the first emission region 211 can proceed uniformly as shown in FIG.

10 is an example of a case in which light reflected by each of the plurality of reflection patterns 311a proceeds in parallel with each other, but the present invention is not limited thereto, and light reflected by each of the plurality of reflection patterns 311a may be diffused have.

In this case, when light reflected by each of the plurality of reflection patterns 311a proceeds in parallel with each other, the plane on which the light is incident on the plurality of reflection patterns 311a may be planar, and a plurality of reflection patterns 311a The surface on which the light is incident on the plurality of reflection patterns 311a may have a curved shape having a predetermined curvature and formed concave or convex.

The second reflection region 320 may reflect light to the second emission region 212 having a curved shape. In this case, the light L reflected radially from the reflection portion 120 may be reflected by the second reflection region 320, The first reflection region 310 and the second reflection region 320 have one end connected to the first emission region 212 and the second emission region 212. Therefore, B2 and the other end may have a curved shape so as to have the same interval as the optical axis Ax of the light source 110a.

12 is a schematic view showing a lighting image formed by a vehicle lamp according to an embodiment of the present invention.

12, the lamp 1 for a vehicle of the present invention includes a first illuminated image I1 formed by light emitted to an output unit 210 and a second illuminated image I1 formed by at least one reflective surface 220, And a lighting image (I2).

10 and 11, the light guided by the first light guide unit 100 is guided to the second light guide unit 200 through the optical path changing unit 300 The second light image I2 may be emitted through the output portion 210 of the second light guide portion 200 and the second light image I2 may be emitted through the second light guide portion 200 as the output portion 200 A part of the guided light may be reflected by the other surface by at least one reflecting surface 220 formed on one surface of the second light guiding portion 200.

As described above, the lamp 1 for a vehicle according to the present invention is designed to uniformly advance the light radially reflected by the reflective portion 120 having a conical shape so as to form a linear lighting image, Brightness can be obtained.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the foregoing detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalents thereof are included in the scope of the present invention Should be interpreted.

100: first light-
110:
110a: Light source
120:
200: second light guide portion
210:
211: First outgoing area
212: second outgoing area
220: Reflecting surface
300: Optical path changing section
310: first reflection area
311: pattern area
311a: reflection pattern
320: second reflection area
B: Border
B1: Straight line
B2: Curved section

Claims (13)

A first light guiding part formed on one surface thereof with an incident part on which light is incident from a light source and a reflection part having a concave shape on the other surface from an opening part;
A second light guiding part having an output part for emitting light guided by the first light guiding part; And
And an optical path changing unit changing the optical path so that light guided by the first light guiding unit advances to the second light guiding unit,
The optical-
And a plurality of reflection patterns arranged at an angle different from each other in the center line connecting the center of one end toward the second light guide and the optical axis of the light source,
Wherein the plurality of reflection pattern regions include:
Wherein the light source is determined by a line connecting the both ends and the optical axis of the light source. The method according to claim 1,
Wherein the plurality of reflection patterns are formed by:
The one end being positioned to abut a boundary line of the second light guiding portion and the light path changing portion,
The shape of the boundary line may be,
Wherein the lamp is variable to correspond to the shape of the emitting portion. 3. The method of claim 2,
The output unit
And an output region having a linear shape,
Wherein one end of the plurality of reflection patterns
Wherein the lamp is positioned so as to abut a straight line section of the boundary line. 3. The method of claim 2,
Wherein the plurality of reflection patterns are formed by:
Wherein the two ends of the light source are located at two points where the boundary line intersects with two circles having different radii around the optical axis of the light source. The method according to claim 1,
Wherein the plurality of reflection patterns are formed by:
And the angle formed between the reference line and the center line becomes larger as the distance from the reference line passing the optical axis of the light source vertically increases. The method according to claim 1,
Wherein the plurality of reflection patterns are formed by:
And the other end toward the first light guiding portion is positioned so as to have a predetermined step with the one end. The method according to claim 1,
Wherein the plurality of reflection patterns are formed by:
And the other end facing the first light guide portion has a different distance from the optical axis of the light source. 8. The method of claim 7,
Wherein the plurality of reflection patterns are formed by:
And the distance between the other end and the optical axis increases as the distance from the reference line passing the optical axis of the light source vertically increases. The method according to claim 1,
And a reflector that reflects the light reflected by the first light guide portion and reflects the light reflected by the first light guide portion, . The method according to claim 1,
Wherein the second light guide portion comprises:
Wherein at least one reflecting surface reflecting a part of the light guided to the emitting portion is formed on one surface of the lamp. 11. The method of claim 10,
Wherein the at least one reflecting surface comprises:
Wherein one surface of the second light guiding portion is formed by corrosion treatment. 3. The method of claim 2,
The output unit
Further comprising an exit region having a curved shape,
The optical-
Further comprising a region positioned so that one end thereof facing the second light guiding portion abuts a curved section of the boundary line. 13. The method of claim 12,
Wherein the region of the optical path changing portion, the one end of which is located in contact with the curved portion,
And the other end has a curved shape so as to have the same interval as the optical axis of the light source.

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