KR101349469B1 - Head lamp and control method thereof - Google Patents

Abstract

According to an embodiment, a head lamp includes: a left head lamp module configured to generate first light by a combination of first and second light emitting devices; A right head lamp module for generating a second light by a combination of third and fourth light emitting elements; A controller configured to determine a first combination ratio for outputting the first light and a second combination ratio for outputting the second light, and to control the first to fourth light emitting devices to be driven according to the determined first and second combination ratios; And a driving unit supplying driving power to the first to fourth light emitting devices using the first and second combination ratios determined by the control unit, wherein the first and second light are first and second combination ratios determined by the control unit. The characteristics of at least one of the color temperature and the wavelength change.

Description

Head Lamp and its Control Method {HEAD LAMP AND CONTROL METHOD THEREOF}

The embodiment relates to a head lamp, and more particularly, to a head lamp and a control method thereof capable of controlling an irradiation distance of light according to color temperature control.

In general, a halogen lamp or a gas discharge lamp has been mainly used as a light source of a headlamp of a vehicle.

Halogen lamps are a constant field problem because they have a slightly reddish color temperature of around 3200K and a lifetime of up to 1000 hours.

In comparison, gas-discharge lamps have a color temperature of about 4300K, which is close to white and a long lifespan.

On the other hand, a white light emitting diode (LED) has attracted attention as a headlamp light source of a vehicle since color temperature is about 5500K, which is close to sunlight and minimizes human eye fatigue.

In addition, LEDs not only increase the degree of freedom of design of the lamp by minimizing the size, but also have economic feasibility due to the semi-permanent life.

In recent years, the adaptive front lighting system (AFLS) has been adopted, and the driving device is installed inside the lamp, so the direction of light irradiation changes according to the direction of the vehicle, so that the driver's vision is clearly visible at night. do.

Such a headlamp is generally provided with a light source having a fixed color temperature or wavelength, thereby generating light having a fixed color temperature or wavelength.

Accordingly, there is a need to find a way to adjust the irradiation distance of the light by changing the color temperature or wavelength of the light generated by the head lamp according to the driving environment.

In an embodiment, a combination of a plurality of light sources provides a head lamp and a control method thereof capable of selectively changing the color temperature and wavelength of light generated from the head lamp.

In addition, in the embodiment, a plurality of light sources having different characteristics are combined to provide head lamps having various color temperatures.

In addition, in the embodiment, the irradiation distance of the light generated from the head lamp may be adjusted by changing the combination ratio of the plurality of light sources according to the amount of ambient light.

It is to be understood that the technical objectives to be achieved by the embodiments are not limited to the technical matters mentioned above and that other technical subjects not mentioned are apparent to those skilled in the art to which the embodiments proposed from the following description belong, It can be understood.

According to an embodiment, a head lamp includes: a left head lamp module configured to generate first light by a combination of first and second light emitting devices; A right head lamp module for generating a second light by a combination of third and fourth light emitting elements; A controller configured to determine a first combination ratio for outputting the first light and a second combination ratio for outputting the second light, and to control the first to fourth light emitting devices to be driven according to the determined first and second combination ratios; And a driving unit supplying driving power to the first to fourth light emitting devices using the first and second combination ratios determined by the control unit, wherein the first and second light are first and second combination ratios determined by the control unit. The characteristics of at least one of the color temperature and the wavelength change.

In addition, the control method of the head lamp according to the embodiment, the step of detecting the external illuminance; Determining a combination ratio of a plurality of light emitting devices having different characteristics according to the sensed illuminance; Driving the plurality of light emitting devices according to the determined combination ratio; And generating light by a combination of the plurality of light emitting devices to be driven, wherein the generated light has a characteristic of at least one of a color temperature and a wavelength according to the determined combination ratio.

According to the embodiment, the head lamp may be implemented with various color temperatures and wavelengths to control the irradiation distance of light, and to reproduce various color temperatures without replacing the existing high intensity discharge (HID) lamp.

In addition, according to the embodiment by sensing the surrounding environment, by controlling the color temperature and wavelength of the head lamp, the irradiation distance of the head lamp can be adjusted in conjunction with the driving environment to improve the user satisfaction.

1 is a view illustrating an appearance of a vehicle according to an exemplary embodiment.
FIG. 2 is a view for explaining the head lamp assembly shown in FIG. 1.
3 is a diagram illustrating a head lamp according to an embodiment.
4 is a view for explaining the left head lamp and the right head lamp shown in FIG. 3 in more detail.
5 is a diagram illustrating the characteristics of light.
6 is a diagram illustrating a method of controlling a head lamp according to an exemplary embodiment.

The following merely illustrates the principles of the invention. Thus, those skilled in the art will be able to devise various apparatuses which, although not explicitly described or shown herein, embody the principles of the invention and are included in the concept and scope of the invention. Furthermore, all of the conditional terms and embodiments listed herein are, in principle, only intended for the purpose of enabling understanding of the concepts of the present invention, and are not to be construed as limited to such specifically recited embodiments and conditions do.

It is also to be understood that the detailed description, as well as the principles, aspects and embodiments of the invention, as well as specific embodiments thereof, are intended to cover structural and functional equivalents thereof. It is also to be understood that such equivalents include all elements contemplated to perform the same function irrespective of the currently known equivalents as well as the equivalents to be developed in the future, i.e., the structure.

1 is a view illustrating an appearance of a vehicle according to an exemplary embodiment.

Referring to FIG. 1, the automobile C is composed of many parts, but if the main parts are largely divided, the automobile C may be classified into a vehicle body and a chassis.

The body (BOBY) is a part that carries people or cargo, and its shape varies depending on its use such as a car, a bus, a truck.

The body BOBY is composed of an engine room, a trunk, and the like.

Chassis refers to the rest of the vehicle, except for the body of the car, and includes the main engines such as power transmission, steering and driving, as well as the engine that drives driving.

The engine is a device that generates the power required for driving a car, and a lot of gasoline engines, diesel engines, and LPG engines are used for automobile engines. The engine consists of the body and various accessories such as lubrication, fuel, cooling, intake, exhaust, starting and ignition.

The power transmission device refers to a series of devices for transmitting power generated from an engine to a driving wheel, and is composed of a clutch and a transmission.

Braking device is a device that stops or decelerates a vehicle and ensures parking by using friction brakes. Tires and wheels withstand the various forces generated during driving such as load burden, shock absorbing, driving force and braking force. It is.

The steering apparatus is a device for arbitrarily changing the driving direction of the vehicle, and the driver may change the direction of the front wheel of the vehicle linked with the steering wheel by rotating the steering wheel in the direction to proceed.

The vehicle C is provided with a head lamp 100 that illuminates the front when driving at night, and a direction indicator which displays the traveling direction of the vehicle on the front and rear vehicles when the direction is changed.

In particular, the direction indicators are located on the left and right sides of the front or rear of the vehicle, and when the driver operates the emergency light on button in an emergency situation, the left / right direction indicators on the front and the left / right direction indicators on the rear simultaneously turn on / off the lights. As a result, you can notify the emergency situation externally.

FIG. 2 is a view for explaining the head lamp assembly shown in FIG. 1.

2, the head lamp assembly includes a housing 110 and a lens 120.

The housing 110 is coupled to a vehicle body (not shown) and includes a light emitting element 112 therein. In addition, the housing 110 includes a reflector 114 inside. The reflector 114 serves to reflect light of the light emitting element 12.

In this case, the light emitting device 112 may be variously applied, such as an LED, and the reflector 114 may be modified in various shapes and may be installed in various ways inside the housing 110.

In particular, the housing 110 is formed to be open to one side to irradiate the light of the light emitting device 112 to the outside. For convenience, the housing 110 is shown to be open to the front side.

Of course, the housing 110 may be modified in various shapes.

On the other hand, the lens 120 is formed to block the open side of the housing 110 serves to protect the light emitting element 112 and the reflector 114, etc. inside the housing 110.

In addition, the lens 120 serves to prevent foreign substances from flowing into the housing 110.

In particular, the lens 120 is made of a transparent material so that the light is irradiated.

In this case, the housing 110 and the lens 120 are connected in various ways.

On the other hand, the lens 120 is made of a plastic material.

In particular, the lens 120 is made of a PC (POLY CARBONATE). In this case, the PC is a kind of plastic resins that are widely used from home appliances such as coffee makers and irons to high-tech products such as automobile parts and mobile phone cases.

The headlamp assembly as described above is provided on the left and right sides of the automobile C, respectively.

That is, the head lamp assembly includes a left head lamp assembly located on the left side of the vehicle C and a right head lamp assembly located on the right side.

In this case, a plurality of light emitting elements are provided in each head lamp assembly.

That is, a plurality of light emitting elements are provided in the left head lamp assembly, and a plurality of light emitting elements are provided in the right head lamp assembly.

In this case, the plurality of light emitting devices are not light emitting devices that are driven under different conditions, and emit light of a specific characteristic according to a combination of light generated by the plurality of light emitting devices as they emit light at the same time.

Hereinafter, the head lamp as described above will be described in more detail.

3 is a diagram illustrating a head lamp according to an embodiment.

Referring to FIG. 3, the head lamp 200 includes a left head lamp module 210, a right head lamp module 220, a sensor 230, a storage 240, and a controller 250.

The left head lamp module 210 is positioned on the left side of the front surface of the vehicle C to generate light. In this case, the left head lamp module 210 includes a plurality of light emitting devices, and generates light by combining the plurality of light emitting devices.

The right head lamp module 220 is positioned on the right side of the front surface of the vehicle C to generate light. In this case, the right head lamp module 220 includes a plurality of light emitting elements similar to the left head lamp module 210, and thus generates light by combining the plurality of light emitting elements.

The sensor 230 detects an external illuminance of the vehicle C.

The sensor 230 may be implemented as an illuminance sensor that detects an external light amount and outputs a detection level corresponding to the detected light amount.

The storage unit 240 stores various data for controlling the operation of the head lamp 200.

The storage unit 240 may include a flash memory type, a hard disk type, a multimedia card micro type, a card type memory (for example, SD or XD memory), It may include at least one type of storage medium such as RAM, ROM (EEPROM, etc.).

In particular, the storage unit 240 stores characteristics of each of the plurality of light emitting devices constituting the left head lamp module 210 and the right head lamp module 220.

In this case, the characteristics of the light emitting device may include a unique color temperature and wavelength of each light emitting device.

In addition, the storage unit 240 stores the characteristic information of light that is changed by the combination of a plurality of light emitting elements constituting the left head lamp module 210. Similarly, the storage unit 240 stores the characteristic information of light that is changed by the combination of a plurality of light emitting elements constituting the right headlamp module 220.

For example, the storage unit 240 stores the combination ratio of the plurality of light emitting elements constituting the left head lamp module 210 and the light characteristic information according to the combination ratio. In this case, the light according to the combination ratio refers to light generated by mixing a plurality of lights generated by the plurality of light emitting devices.

In other words, the first light generated in the first light emitting device and the second light generated in the second light emitting device are fixed according to the characteristics of the first and second light emitting devices.

In this case, the third light generated by the mixing of the first light and the second light has a different characteristic depending on the combination ratio of the first light and the second light. For example, the third light when the combination ratio of the first light emitting element and the second light emitting element is 1: 2 and the third light when the ratio is 2: 1 have different characteristics.

Accordingly, the storage unit 240 stores various combination ratios of the plurality of light emitting devices and characteristic information of the third light represented by the various combination ratios.

In addition, the storage unit 240 stores combination ratio information of the plurality of light emitting devices according to external illumination.

The controller 250 controls the overall operation of the head lamp 200.

In particular, when the peripheral illuminance sensed by the sensor 230 decreases below a predetermined level, the controller 250 causes the left head lamp module 210 and the right head lamp module 220 to generate light.

In addition, the controller 250 adjusts a combination ratio of a plurality of light emitting devices provided in the left head lamp module 210 to change a characteristic of light generated by the left head lamp module 210.

In addition, the controller 250 adjusts the combination ratio of the plurality of light emitting devices provided in the right head lamp module 220 to change the characteristics of the light generated by the right head lamp module 220.

Here, the combination ratio may mean the intensity of light generated by the plurality of light emitting devices. In other words, when the plurality of light emitting devices includes a first light emitting device and a second light emitting device, the combination ratio is a ratio of the intensity of light generated by the first light emitting device to the intensity of light generated by the second light emitting device. Can be.

In particular, the controller 250 is provided in the left head lamp module 210 and the right head lamp module 220 by using the data stored in the storage unit 240 and the ambient illuminance sensed by the sensor 230. The combination ratio of the plurality of light emitting elements thus determined is determined.

5 is a diagram illustrating the characteristics of light.

Referring to FIG. 5, in general, as the color temperature of light increases, the wavelength thereof becomes shorter. At this time, when the wavelength of the light is shortened, the property of scattering becomes stronger and the property of reflecting when hitting an obstacle is stronger.

In addition, as the color temperature of light decreases, the wavelength of the light becomes longer, but the quality of irradiation decreases.

As the color temperature of the light increases due to the properties of the light, the wavelength is shortened, and thus the light has a stronger property of spreading laterally than straightness.

In addition, as the color temperature of the light decreases, the wavelength becomes longer, and thus the light has a straightness rather than a side spreading property.

Accordingly, as the color temperature of the light increases, the irradiation distance of the light becomes longer.

Accordingly, the controller 250 adjusts a combination ratio of a plurality of light emitting devices provided in the left head lamp module 210 and the right head lamp module 220 according to the peripheral illumination, and accordingly the left head lamp module 210. And the characteristics of light generated from the right head lamp module 220.

4 is a view for explaining the left head lamp and the right head lamp shown in FIG. 3 in more detail.

Referring to FIG. 4, the left head lamp module 210 includes a first light emitting device 211, a second light emitting device 212, and a first driver 213.

In addition, the right head lamp module 220 includes a third light emitting device 221, a fourth light emitting device 222, and a second driver 223.

The first light emitting device 211 and the second light emitting device 212 constitute the left head lamp module 210.

In addition, the third light emitting device 221 and the fourth light emitting device 222 constitute the right head lamp module 220.

In this case, the first light emitting device 211 generates light having a first characteristic, and the second light emitting device 212 generates light having a second characteristic. Similarly, the third light emitting device 221 and the fourth light emitting device 222 also generate light having different characteristics.

As described above, when light having different characteristics occurs in the first light emitting device 211 and the second light emitting device 212, the light is mixed in the left head lamp module 210, and thus the mixing is performed. Light is irradiated to the outside of the left head lamp module 210.

In addition, when light having different characteristics is generated from the third light emitting device 221 and the fourth light emitting device 222, the light is mixed in the right head lamp module 220, and thus the mixed light is generated. This is irradiated to the outside of the right headlamp module 220.

Accordingly, the controller 250 determines the combination ratio of the first light emitting element 211 and the second light emitting element 212, and accordingly the first combination ratio information according to the determined combination ratio to the first driver 213. To pass.

When the first combination ratio information is transmitted through the controller 250, the first driving unit 213 may operate the first light emitting device 211 and the second light emitting device 212 using the transferred first combination ratio information. Adjust the driving power supplied through.

For example, when the first combination ratio is 1: 1, the first driver 213 supplies the same driving power to the first and second light emitting devices 211 and 212. However, when the first combination ratio is 2: 1, the first driver 213 supplies N-level driving power to the first light emitting device 211 and N / 2 to the second light emitting device 212. Supply level driving power.

In addition, when the first combination ratio is 1: 0, the first driver 213 supplies driving power only to the first light emitting element 211. When the first combination ratio is 0: 1, the second light emitting element 212 is used. Only supply driving power.

As described above, the third light is generated by mixing the first light generated by the first light emitting element 211 and the second light generated by the second light emitting element 212 according to the change of the driving power according to the first combination ratio. The characteristics of the light are different.

In addition, the controller 250 determines the combination ratio of the third light emitting element 221 and the fourth light emitting element 222, and accordingly transmits the second combination ratio information according to the determined combination ratio to the second driver 223. do.

When the second combination ratio information is transmitted through the control unit 250, the second driving unit 223 may operate the third light emitting element 221 and the fourth light emitting element 222 using the transferred second combination ratio information. Adjust the driving power supplied through.

For example, when the second combination ratio is 1: 1, the second driver 223 supplies the same driving power to the third and fourth light emitting elements 221 and 222. However, when the second combination ratio is 2: 1, the second driver 223 supplies N level driving power to the third light emitting element 221 and N / 2 to the fourth light emitting element 222. Supply level driving power.

As described above, the right head lamp is substantially formed by mixing light generated in the third light emitting element 221 and light generated in the fourth light emitting element 222 according to a change in driving power according to the second combination ratio. The characteristics of the light generated by the module 220 are different.

As described above, according to the embodiment, by implementing a head lamp with a variety of color temperature and wavelength, it is possible to control the irradiation distance of the light, it is possible to reproduce a variety of color temperature without replacing the existing high intensity discharge (HID) lamp have.

In addition, according to the embodiment by sensing the surrounding environment, by controlling the color temperature and wavelength of the head lamp, the irradiation distance of the head lamp can be adjusted in conjunction with the driving environment to improve the user satisfaction.

6 is a diagram illustrating a method of controlling a head lamp according to an exemplary embodiment.

First, referring to FIG. 6, an external illuminance of a vehicle is detected (step 110).

When the illuminance is detected, the controller 250 extracts a first combination ratio and a second combination ratio corresponding to the detected illuminance from the storage unit 240, and accordingly, the driving condition and the right head lamp of the left head lamp module 210 are extracted. The driving condition of the module 220 is determined (step 120).

When the driving condition is determined, the controller 250 transmits the first combination ratio and the second combination ratio according to the determined driving condition to the first driver 213 and the second driver 223.

The first driver 213 drives the first light emitting device 211 and the second light emitting device 212 provided in the left head lamp module 210 using the transmitted first combination ratio (step 130).

In addition, the second driver 214 drives the third light emitting device 221 and the fourth light emitting device 222 included in the right head lamp module 220 by using the transmitted second combination ratio (step 140). .

According to the embodiment, the head lamp may be implemented with various color temperatures and wavelengths to control the irradiation distance of light, and to reproduce various color temperatures without replacing the existing high intensity discharge (HID) lamp.

In addition, according to the embodiment by sensing the surrounding environment, by controlling the color temperature and wavelength of the head lamp, the irradiation distance of the head lamp can be adjusted in conjunction with the driving environment to improve the user satisfaction.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: headlamp assembly
110: Housing
112: light emitting element
114: reflector
120: lens
200: headlamp
210: left headlamp
211: first light emitting device
212: second light emitting element
213: first drive unit
220: right head lamp
221: third light emitting element
222: fourth light emitting element
223: second drive unit
230: sensor
240:
250:

Claims (17)

A left head lamp module for generating a first light by a combination of first and second light emitting elements;
A right head lamp module for generating a second light by a combination of third and fourth light emitting elements;
A controller configured to determine a first combination ratio for outputting the first light and a second combination ratio for outputting the second light, and to control the first to fourth light emitting devices to be driven according to the determined first and second combination ratios; And
And a driving unit supplying driving power to the first to fourth light emitting devices by using the first and second combination ratios determined by the control unit.
The first and second light,
And at least one of a color temperature and a wavelength is changed according to the first and second combination ratios determined by the controller. The method of claim 1,
The first combination ratio is
It is a ratio of the intensity of light generated by the first light emitting device and the intensity of light generated by the second light emitting device,
The second combination ratio is
The head lamp is a ratio of the intensity of the light generated by the third light emitting device and the intensity of the light generated by the fourth light emitting device. 3. The method of claim 2,
Characteristics of the first light emitting device,
Different from the characteristics of the second light emitting device,
The characteristic of the third light emitting device is,
Different from the characteristics of the fourth light emitting device,
The above-
A head lamp comprising at least one of color temperature and wavelength of light. The method of claim 3, wherein
The left head lamp module,
Outputting a first light in which light generated in the first light emitting device and light generated in the second light emitting device are mixed according to the first combination ratio;
The right head lamp module,
And a second light in which light generated by the third light emitting device and light generated by the fourth light emitting device are mixed according to the second combination ratio. 5. The method of claim 4,
It further includes an illuminance sensor for detecting the external illuminance,
The control unit,
The head lamp determines the first combination ratio and the second combination ratio according to the external illuminance sensed by the illuminance sensor. 6. The method of claim 5,
Further comprising a storage unit for storing the characteristic information of the first light according to the change of the first combination ratio and the characteristic information of the second light according to the change of the second combination ratio,
The control unit,
And a first combination ratio and a second combination ratio corresponding to the sensed external illuminance, using the information stored in the storage. The method according to claim 6,
The control unit,
A head for determining a first and second combination ratio for increasing or decreasing the color temperature of the first and second light in proportion to the sensed external illuminance and for increasing or decreasing the wavelength of the first and second light in inverse proportion to the sensed external illuminance lamp. The method according to claim 6,
Wherein,
Further stores a first and a second combination ratio corresponding to the external illuminance,
The control unit,
And a first and second combination ratio corresponding to the sensed external illuminance from the storage. Sensing external illuminance;
Determining a first combination ratio for the combination of the first and second light emitting elements provided in the left head lamp and a second combination ratio for the combination of the third and fourth light emitting elements provided in the right head lamp according to the sensed illuminance; ;
Driving the first to fourth light emitting devices according to the determined first and second combination ratios; And
Generating light by a combination of the first to fourth light emitting devices to be driven;
The generated light is
At least one of a color temperature and a wavelength is changed according to the determined combination ratio. delete The method of claim 9,
The first combination ratio is
It is a ratio of the intensity of light generated by the first light emitting device and the intensity of light generated by the second light emitting device,
The second combination ratio is
And a ratio of the intensity of light generated by the third light emitting element and the intensity of light generated by the fourth light emitting element. 12. The method of claim 11,
The driving step,
Adjusting the intensity of light generated by the first light emitting device and the intensity of light generated by the second light emitting device according to the determined first combination ratio;
And controlling the intensity of light generated by the third light emitting device and the intensity of light generated by a fourth light emitting device according to the determined second combination ratio. 13. The method of claim 12,
Generating the light,
Outputting a first light in which light generated in the first light emitting device and light generated in the second light emitting device are mixed by the first combination ratio;
And outputting a second light in which light generated by the third light emitting device and light generated by the fourth light emitting device are mixed by the second combination ratio. 14. The method of claim 13,
The first light is,
The color temperature and wavelength change according to the first combination ratio,
The second light,
A control method of a head lamp in which color temperature and wavelength change in accordance with the second combination ratio. The method of claim 14,
Storing the characteristic information of the first light according to the change of the first combination ratio and the characteristic information of the second light according to the change of the second combination ratio;
Determining the combination ratio,
And using the stored information, determining a first combination ratio and a second combination ratio corresponding to the sensed external illuminance. 16. The method of claim 15,
Determining the combination ratio,
Determining a first and second combination ratio to increase or decrease the color temperature of the first and second light in proportion to the sensed external illuminance, and to increase or decrease the wavelength of the first and second light in inverse proportion to the sensed external illuminance. Control method of a head lamp comprising. 16. The method of claim 15,
Wherein the storing step comprises:
Storing the first and second combination ratios corresponding to the external illuminance;
Determining the combination ratio,
Extracting first and second combination ratios corresponding to the sensed external illuminance.

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