KR20160073741A - Automotive hologram image producing lamp - Google Patents

Abstract

The present invention relates to a hologram image producing lamp for a vehicle and, more specifically, relates to a hologram image producing lamp for a vehicle emitting light to be exposed to the outside in a form of a hologram image. A hologram image producing lamp for a vehicle according to an embodiment of the present invention includes a light source and a hologram forming unit forming a hologram corresponding to hologram information recorded by receiving direct light or reflected light of the light source. The light source and the hologram forming unit are equipped in a side-view mirror of a vehicle.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hologram image reproducing lamp,

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a hologram image reproducing lamp for a vehicle, and more particularly, to a hologram image reproducing lamp for a vehicle, in which light externally exposed is realized in the form of a hologram image.

Generally, the vehicle has a lighting function for easily confirming an object located in the vicinity of the vehicle at nighttime driving, and a lamp having a signal function for notifying other vehicle or road users of the running state of the vehicle.

For example, headlights and fog lights are mainly aimed at lighting functions. Direction lights, taillights, taillights and side markers are mainly used for signal functions. In some cases, lighting functions and signal functions .

In recent years, the lamp module has exceeded merely the lighting function and the signal function, so that a specific type of light is emitted to the outside, thereby improving the visibility and improving the perception of the product of a specific maker.

On the other hand, it is not easy to have differentiation from other products through it because it has been a long-lasting technology to transform the shape of light emitted to the outside.

A hologram means an image implemented using interference of light. The image information can be stored in a screen-shaped hologram-forming unit. When a light beam hits the hologram-forming unit, the reference beam directly illuminates the hologram-forming unit, the object beam reflected by the object, object beams interfere with each other and the interference fringes are stored in the hologram forming unit.

In this process, image information can be stored in the hologram forming unit. The light having the same wavelength and phase (hereinafter, referred to as reproduction light) in the wavelength and phase of the light (reference light) used for generating the hologram- The hologram is reproduced when it is irradiated to the hologram forming portion.

The hologram can be largely divided into a transmission type hologram and a reflection type hologram. The transmission type hologram means a hologram formed by the reproduction light transmitted through the hologram formation portion. The reflection type hologram is a hologram formed by the reproduction light reflected by the hologram formation portion, .

A hologram forming part attached to a general credit card realizes a hologram using natural light as reproduction light, which can be understood as a reflection type hologram.

The hologram can cause interest by the observer due to its implementation, and it is required that the invention of applying such hologram technology to a vehicle lamp be introduced.

Korean Patent Publication No. 1991-0009175 (November, 4, 1991)

An object of the present invention is to realize light in the form of a hologram image exposed to the outside of a hologram image reproducing lamp for a vehicle.

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

In order to achieve the above object, a hologram image reproducing lamp according to an embodiment of the present invention includes a hologram forming unit for forming a hologram corresponding to recorded hologram information upon receiving a direct light or reflected light of the light source, The light source and the hologram forming unit are provided in the side mirror.

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

According to the hologram image reproducing lamp of the present invention as described above, the light that is exposed to the outside of the vehicle lamp is realized in the form of a hologram image, thereby improving the visibility and improving the awareness of the product of a specific manufacturer have.

1 is a view showing the principle of a hologram image reproducing lamp for a vehicle according to an embodiment of the present invention.
2 is a view showing a hologram formed by a hologram image reproducing lamp for a vehicle according to an embodiment of the present invention.
3 is a view illustrating a hologram image reproducing lamp for a vehicle according to an embodiment of the present invention.
4 to 9 are sectional views of a hologram image reproducing lamp for a vehicle according to an embodiment of the present invention.
10 is a view showing a hologram formed according to an embodiment of the present invention observed from the outside.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. 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. Is provided to fully convey 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.

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. Also, commonly used predefined terms are not ideally or excessively interpreted unless explicitly defined otherwise.

FIG. 1 is a view showing the principle of a hologram image reproducing lamp for a vehicle according to an embodiment of the present invention. The hologram image reproducing lamp 100 for a vehicle comprises a light source 110, a reflection plate 120 and a hologram forming unit 130. Fig.

The light source 110 may be one of any light sources that can be used for hologram reproduction, such as a light emitting diode (LED), a laser, and a bulb type light source.

The reflector 120 reflects the light of the light source 110. A sufficient distance between the light source 110 and the hologram forming unit 130 must be secured in order to form a correct hologram. If it is difficult to secure a direct distance between the light source 110 and the hologram forming unit 130, 120 can reflect the light from the light source 110, thereby ensuring the distance.

The hologram forming unit 130 records hologram information. The hologram forming unit 130 can record the interference fringes generated by the interference between the reference beam and the object beam as hologram information.

The hologram is generated by the interference of light. In order to realize the hologram, the interference fringe should be recorded in the hologram forming unit 130 by using the reference light and the object light.

The reference light means light directly illuminated to the hologram forming unit 130 among the light by any light source 110 and the object light means light reflected by the object among the light by the light source 110.

As a result, both the reference light and the object light are reflected to the hologram forming unit 130, and a pattern is formed in the hologram forming unit 130 by the interference of the reference light and the object light, and this is recorded as the hologram information.

Thus, when the hologram forming unit 130 illuminates the light having the same wavelength and phase as the wavelength and phase of the reference light used for recording the hologram information in the hologram forming unit 130, the hologram is reproduced.

That is, the wavelength and phase of light by the light source 110 of the present invention may include the same wavelength and phase of the reference light, respectively.

In addition, the position of the light source 110 and the arrangement angle of the reflection plate 120 can be determined so that the direction and angle of the reference light to the hologram forming unit 130 are equalized. That is, the direction and angle of the reference light directed to the hologram forming unit 130 are the same as the direction and angle of the light from the light source 110 (hereinafter referred to as reproducing light) directed to the hologram forming unit 130.

Thus, synchronization with respect to the position of the object and the hologram can be realized. That is, by making the directions and angles of the reference light and the reproduction light respectively the same, a hologram is formed at the position where the object was located with respect to the hologram forming unit 130.

The hologram forming unit 130 according to the embodiment of the present invention is preferably formed in a plate shape such as a film, but is not limited thereto. However, as described later, the hologram forming unit 130 may have a constant transmittance.

The hologram may be divided into a transmission type hologram and a reflection type hologram. The transmission type hologram means a hologram formed by the reproduction light transmitted through the hologram forming unit 130, And the hologram formed by the reflection.

In the present invention, the hologram forming unit 130 may form a transmission type hologram. That is, according to the hologram forming unit 130 of the present invention, light is transmitted through the light source 110 to form a hologram. For this, the hologram forming unit 130 preferably has a transmittance of a predetermined size or more.

2 is a view showing a hologram formed by a hologram image reproducing lamp for a vehicle according to an embodiment of the present invention.

The hologram 200 is observed as a three-dimensional image in front of the hologram forming unit 130 by the projection of the light source reflected by the reflection plate 120.

Although the vehicle hologram image reproducing lamp 100 having the reflection plate 120 has been described above, the hologram image reproduction lamp for a vehicle may be implemented in a form in which the reflection plate 120 is omitted.

When the reflection plate 120 is omitted, the hologram can be formed as the light from the light source 110 is directly incident on the hologram forming unit 130 as reproduction light.

The hologram image reproducing lamp 100 for a vehicle according to an embodiment of the present invention may be provided in the side mirror 20, which is shown in FIG.

The vehicle hologram image reproducing lamp 100 may be provided on the side mirror 20 or may be provided on the front side of the side mirror 20 or the housing of the side mirror 20. In other words, the hologram image reproducing lamp 100 for a vehicle according to the present invention may be attached to the front surface of the side mirror 20 or may be embedded in the housing of the side mirror 20.

Thus, the hologram image reproducing lamp 100 for a vehicle can perform the role of a turn signal lamp, but is not limited thereto.

The hologram image reproducing lamp 100 according to the embodiment of the present invention includes the light source 110 and the hologram forming unit 130. The hologram forming unit 130 includes the hologram forming unit 130, Or holograms corresponding to recorded holographic information are formed by receiving reflected light.

Here, the light source 110 and the hologram forming unit 130 are provided in the side mirror 20 of the vehicle. The light source 110 and the hologram forming unit 130 are provided with a hologram image reproduction lamp The structure of the substrate 100 may not be provided.

The reflection plate 120 may be used to secure a sufficient distance between the light source 110 and the hologram forming unit 130 or the reflection plate 120 may be omitted if a sufficient distance is secured. The hologram image reproducing lamps 101, 102, 103, 104, 105, and 106 according to the embodiment will be described.

4 to 9 are sectional views of a hologram image reproducing lamp for a vehicle according to an embodiment of the present invention.

4, the hologram image reproducing lamp 101 for a vehicle includes a housing 410, a light source 420, a reflector 430, a light modulator 440, and a hologram forming unit 450 .

The housing 410 serves to support the light source 420 and closely adheres to the side mirror 20 to fix the hologram image reproducing lamp 101 for a vehicle to the side mirror 20.

The reflection plate 430 reflects the light of the light source 420 and irradiates the light to the hologram forming unit 450. The light source 420 and the hologram forming unit 450 450 are secured.

Here, the reflection angle of the light source 420 by the reflection plate 430 may be less than 90 degrees. 4, the light of the light source 420 illuminated from below is reflected by the reflection plate 430 in an obliquely downward direction and irradiated to the hologram forming unit 450. The light source 420, The combination of the hologram forming unit 430 and the hologram forming unit 450 can be configured more compactly.

The hologram forming unit 450 transmits the reflected light of the light source 420 to form a hologram.

The light modulator 440 changes the light irradiation path of the reflected light reflected by the reflection plate 430, and the lens may function as the light modulator 440.

The hologram forming unit 450 of the present invention may be provided in close contact with the light modulating unit 440 so that the light modulating unit 440 concentrates the incident light so that the hologram can be observed more clearly . ≪ / RTI >

4 illustrates that one lens is provided as the light modulator 440. This is a schematic representation of light modulating means for changing the light irradiation path of the light source 420. The light modulator 440 is a lens , A light modulating film, a microlens array, a MEMS (Micro Electro Mechanical System) optical modulator, a LCD (Liquid Crystal Display) panel, or the like, to change a light irradiation path to be suitable for forming a hologram with light emitted from a light source And can be implemented in various forms.

5, the hologram image reproducing lamp 102 for a vehicle includes a housing 510, a light source 520, a reflector 530, a light modulator 540, and a hologram forming unit 550 .

The housing 510 serves to support the light source and is closely attached to the side mirror 20 to fix the hologram image reproducing lamp 102 for a vehicle to the side mirror 20.

The reflection plate 530 reflects the light of the light source 520 to be irradiated to the hologram forming unit 550. The light source 520 and the hologram forming unit 550 550 are secured.

Here, the reflection angle of the light source 520 by the reflection plate 530 may be less than 90 degrees. 5, the light from the light source 520 irradiated from the top to the bottom is reflected obliquely upward by the reflection plate 530 and irradiated to the hologram forming unit 550. The light source 520, The combination of the hologram forming unit 530 and the hologram forming unit 550 can be configured more compactly.

The hologram forming unit 550 transmits the reflected light of the light source 520 to form a hologram.

The light modulator 540 changes the light irradiation path of the reflected light reflected by the reflection plate 530, and the lens may function as the light modulator 540.

The hologram forming unit 550 of the present invention may be provided in close contact with the light modulating unit 540 so that the light modulating unit 540 may focus the incident light so that the hologram can be more clearly observed . ≪ / RTI >

5 shows that one lens is provided as the light modulator 540. This is a schematic representation of light modulating means for changing the light irradiation path of the light source 520. The light modulator 540 is a lens , A light modulating film, a microlens array, a MEMS (Micro Electro Mechanical System) optical modulator, a LCD (Liquid Crystal Display) panel, or the like, to change a light irradiation path to be suitable for forming a hologram with light emitted from a light source And can be implemented in various forms.

6, the hologram image reproducing lamp 103 for a vehicle includes a housing 610, a light source 620, a light modulator 640, and a hologram forming unit 650.

The housing 610 serves to support the light source 620 and closely adheres to the side mirror 20 to fix the hologram image reproducing lamp 103 for a vehicle to the side mirror 20.

The light source 620 directs the light to the hologram forming unit 650 directly. The distance between the light source 620 and the hologram forming unit 650 may not be sufficiently secured so that the light from the light source 620 may not be transmitted to the hologram forming unit 650. Therefore, Light by the light source 620 according to the example may be diffused and irradiated in a wide angle range, and light diffusion means (not shown) may be provided on the front surface of the light source 620.

In any case, it is preferable that the light of the light source 620 has the same wavelength and phase as the wavelength and phase of the light (reference light) used for forming the hologram forming portion 650 so as to serve as the reproducing light .

The hologram forming unit 650 transmits the direct light of the light source 620 to form a hologram.

The light modulator 640 changes the light irradiation path of the light emitted by the light source 620, and the lens can function as the light modulator 640.

The hologram forming unit 650 of the present invention may be provided in close contact with the light modulating unit 640 so that the light modulating unit 640 concentrates the incident light so that the hologram can be more clearly observed . ≪ / RTI >

6 shows that one lens is provided as the light modulator 640. This is a schematic representation of light modulating means for changing the light irradiation path of the light source 620. The light modulator 640 is a lens , A light modulating film, a microlens array, a MEMS (Micro Electro Mechanical System) optical modulator, a LCD (Liquid Crystal Display) panel, or the like, to change a light irradiation path to be suitable for forming a hologram with light emitted from a light source And can be implemented in various forms.

7, the vehicular hologram image reproducing lamp 104 includes a housing 710, a light source 720, a reflector 730, a first light modulating portion 741, a second light modulating portion 742, And a hologram forming unit 750.

The housing 710 serves to support the light source 720 and closely adheres to the side mirror 20 to fix the hologram image reproducing lamp 104 for a vehicle to the side mirror 20.

The reflection plate 730 reflects the light from the light source 720 to be irradiated to the hologram forming unit 750. The reflection plate 730 reflects light from the light source 720 and the hologram forming unit 750 by the distance between the light source 720 and the reflection plate 730 750 are secured.

Here, the reflection angle of the light source 720 by the reflection plate 730 may be less than 90 degrees. 7, the light of the light source 720 irradiated from below to below is reflected by the reflector 730 diagonally downward and irradiated to the hologram forming unit 750. The light source 720, The combination of the hologram forming unit 730 and the hologram forming unit 750 can be configured more compactly.

The hologram forming unit 750 transmits the reflected light of the light source 720 to form a hologram.

The first optical modulator 741 and the second optical modulator 742 serve to change the light irradiation path of the reflected light 730 reflected by the reflector 730. The lens has a first light modulator 741 and a second optical modulator 742, respectively.

The hologram forming unit 750 of the present invention may be provided in close contact with the second light modulating unit 742 provided inside the housing 710. As a result, the first light modulating unit 741 and the second light modulating unit It is understood that the combination of the holograms 742 serves to focus the incident light so that the hologram can be more clearly observed.

The combination of the first optical modulator 741 and the second optical modulator 742 may be a digital optical modulator using a lens, a light modulation film, a micro lens array, a MEMS (Micro Electro Mechanical System) optical modulator, an LCD (Liquid Crystal Display) A light source such as a light modulator, and a modulator. The hologram may be formed of various types that can change a light irradiation path to be suitable for forming a hologram.

8, the vehicle hologram image reproducing lamp 105 includes a housing 810, a light source 820, a reflector 830, a first light modulator 841, a second light modulator 842, And a hologram forming unit 850.

The housing 810 serves to support the light source 820 and closely adheres to the side mirror 20 to fix the hologram image reproducing lamp 105 for a vehicle to the side mirror 20.

The reflection plate 830 reflects the light of the light source 820 and irradiates the light to the hologram forming unit 850. The light source 820 and the hologram forming unit 830 850 are secured.

Here, the reflection angle of the light source 820 by the reflection plate 830 may be less than 90 degrees. 8, the light of the light source 820 irradiated from the top to the bottom is reflected obliquely upward by the reflection plate 830 and irradiated to the hologram forming unit 850. The light source 820, The combination of the hologram forming unit 830 and the hologram forming unit 850 can be configured more compactly.

The hologram forming unit 850 transmits the reflected light of the light source 820 to form a hologram.

The first optical modulator 841 and the second optical modulator 842 change the light irradiation path of the reflected light reflected by the reflector 830. The lens has the first light modulator 841 and the second light modulator 842, And may serve as a second optical modulator 842.

The hologram forming unit 850 of the present invention may be provided in close contact with the second optical modulating unit 842 provided inside the housing 810. As a result, the first optical modulating unit 841 and the second optical modulating unit 841 It can be understood that the combination of the holograms 842 serves to focus the incident light so that the hologram can be more clearly observed.

The combination of the first optical modulator 841 and the second optical modulator 842 may be a digital optical modulator using a lens, a light modulation film, a micro lens array, a MEMS (Micro Electro Mechanical System) optical modulator, an LCD (Liquid Crystal Display) A light source such as a light modulator, and a modulator. The hologram may be formed of various types that can change a light irradiation path to be suitable for forming a hologram.

9, the vehicle hologram image reproducing lamp 106 includes a housing 910, a light source 920, a first light modulating portion 941, a second light modulating portion 942, and a hologram forming portion 950 ).

The housing 910 serves to support the light source 920 and closely adheres to the side mirror 20 to fix the hologram image reproducing lamp 106 for a vehicle to the side mirror 20.

The light source 920 directs the light to the hologram forming unit 950 directly. The distance between the light source 920 and the hologram forming unit 950 may not be sufficiently secured so that the light of the light source 920 may not be transmitted to the hologram forming unit 950. Light by the light source 920 according to the example may be diffused and irradiated in a wide angle range, and a light diffusion means (not shown) may be provided on the front surface of the light source 920.

In any case, it is preferable that the light of the light source 920 has the same wavelength and phase as the wavelength and phase of the light (reference light) used for forming the hologram forming portion 950 in order to serve as the reproducing light .

The hologram forming unit 950 transmits the direct light of the light source 920 to form a hologram.

The first optical modulation unit 941 and the second optical modulation unit 942 change the light irradiation path of the light irradiated by the light source 920. The lens has the first light modulation unit 941 and the second light modulation unit 942, 2 light modulating unit 942. [0154] FIG.

The hologram forming unit 950 of the present invention may be provided in close contact with the second optical modulating unit 942 provided inside the housing 910. As a result, the first optical modulating unit 941 and the second optical modulating unit 942 It is understood that the combination of the holograms 942 serves to focus the incident light so that the hologram can be more clearly observed.

The combination of the first optical modulator 941 and the second optical modulator 942 may be a digital optical modulator using a lens, a light modulation film, a micro lens array, a MEMS (Micro Electro Mechanical System) optical modulator, an LCD (Liquid Crystal Display) A light source such as a light modulator, and a modulator. The hologram may be formed of various types that can change a light irradiation path to be suitable for forming a hologram.

10 is a view showing that a hologram formed according to an embodiment of the present invention is observed from the outside, and the hologram image reproducing lamp 100 for a vehicle provided in the side mirror 20 forms the hologram 1000 .

As shown in the figure, each of the hologram image reproducing lamps 100 for a vehicle provided in the side mirrors 20 can form a plurality of holograms 1000. For this purpose, a plurality of light sources and a plurality of hologram forming units And may be provided in the regenerating lamp 100.

In this manner, when there are a plurality of light source and hologram forming units, it is possible to prevent or partially observe a part of the plurality of holograms formed by the plurality of hologram forming units by controlling the lighting and the light extinguishing of each light source, It can also provide effects such as appearing sequentially or disappearing sequentially.

In addition, each of the plurality of holograms may have a different shape, and a color filter (not shown) may be provided for each hologram forming unit so that the colors of the holograms may be the same or different from each other.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

110, 420, 520, 620, 720, 820, 920:
120, 430, 530, 730, 830:
130, 450, 550, 650, 750, 850, 950:
410, 510, 610, 710, 810, 910: housing
440, 540, and 640:
741, 841, and 941:
742, 842, and 942:

Claims (11)

Light source; And
And a hologram forming unit for receiving the direct light or the reflected light of the light source and forming a hologram corresponding to the recorded hologram information,
Wherein the light source and the hologram forming unit are provided in a side mirror of a vehicle. The method according to claim 1,
Wherein the hologram forming unit records an interference pattern generated by interference between a reference beam and an object beam as the hologram information. 3. The method of claim 2,
Wherein the wavelength and phase of light by the light source are the same as the wavelength and phase of the reference light, respectively. The method according to claim 1,
Wherein the hologram forming unit forms the hologram by transmitting light or reflected light of the light source. The method according to claim 1,
A housing for supporting the light source; And
And a reflector for reflecting the light of the light source. 6. The method of claim 5,
Wherein the reflection angle of the light source by the reflection plate is less than 90 degrees. The method according to claim 1,
Further comprising a first light modulating section for changing the light irradiation path of the direct light or the reflected light of the light source. 8. The method of claim 7,
Wherein the hologram forming unit is provided in close contact with the first light modulating unit. 6. The method of claim 5,
And a second light modulating section for changing a light irradiation path of the direct light or the reflected light of the light source is provided in the housing. 10. The method of claim 9,
And the hologram forming unit is provided in close contact with the second light modulating unit. The method according to claim 1,
The hologram image reproducing lamp for a vehicle is provided in a housing of a side mirror of the vehicle.

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