KR20170001191A - Intelligent lighting device for a vehicle - Google Patents

Abstract

Disclosed is an intelligent lighting device which comprises: a light body; a light collecting unit; a lighting unit; and light focusing glass. Since an output current of a pulse-width modulation unit is zero when the light collecting unit collects intensity of surrounding light, even if the lighting unit is turned off, intensity of light is not present in the light body, and intensity of surrounding light in a light transmission region is accurately detected when the light collecting unit collects the intensity of surrounding light in the light transmission region.

Description

[0001] INTELLIGENT LIGHTING DEVICE FOR A VEHICLE [0002]

[0001] The present invention relates to an intelligent illumination device for a vehicle, and more particularly to a device capable of changing (or adjusting) the illumination luminosity based on the power saving, the ambient luminosity of the illumination projection area, and more accurately changing will be.

Biking is the most popular exercise. In addition to exercise, it can prevent carbon dioxide from escaping into the air, polluting the air, and can be easily operated by men and women, boys and girls. Therefore, many people can use their leisure time as a bicycle ride in an open space.

However, some people who like bicycles have to ride their bicycles in dark evening or night because of work. Vision can weaken in dark evening or night. Many people do not ride in open spaces, so they must share the same road with others who ride a motorcycle or drive a car, and many traffic accidents are easy to occur. Therefore, in order to clearly see the objects or people in front of the driver, the driver may wear a light reflecting device or a lighting device to prevent a traffic accident.

With reference to Taiwan Patent No. 356790, this discloses a flashing alarm for a bicycle, especially when it is automatically flashing and is parked or can be turned off when there is sufficient light. This mainly includes an LED flash drive circuit. The output terminal of the driving circuit is electrically connected to the LED. The negative terminal of the LED is electrically connected in series to a light sensitive resistor (CDS). The ground terminal of the photoresistor is connected to the node of the clip-spring switch. The clip-spring switch is then electrically connected to the ground. The effect of the alarm can be achieved by a double activating control structure of the photodiode detection of the clip-spring switch conduction due to the vibration of the bicycle and the photoresistor.

The light mentioned above can be automatically flickered for alarming in response to the ambient light intensity of the light, but in practice, the light-sensitive resistors can only detect the difference in ambient light intensity, and in particular for the driver or pedestrian of a motorcycle or bicycle, It is not limited to the illumination range. This mainly illuminates the bars in front of the pedestrians or drivers at predetermined distances for clear viewing. The photoresistor may not be judged flexibly when the lighting range in front of pedestrians or drivers is different from the brightness around the pedestrians or drivers. The light referred to above may only have two modes that are automatically turned on and off, and may not fill or diminish with illumination luminosity corresponding to the ambient luminosity. Therefore, many problems arise.

First, the light mentioned above may not immediately fill the light area (5-10 meters in front of pedestrians or drivers) and may be in danger afterwards.

Secondly, the power of the light may not be reduced to the brightness corresponding to the ambient light intensity of the light projection area (illumination area) and may be wasted.

Third, because light is based on the detection of the light-sensitive resistors to turn the flash on or off, it must be aligned with batteries that have a larger capacity to sustain or extend the light's lifetime. To account for manufacturing costs, batteries with larger capacities have larger sizes so that the power of light batteries is not effectively saved and the volume of batteries is less likely to be minimized in design.

In order to overcome the above disadvantages, a new illumination device which can change (or adjust) the luminosity corresponding to power saving and ambient luminous intensity should be employed.

However, the new illumination device still has the disadvantage of insufficient accuracy because the light collecting unit 2 is detecting the ambient light intensity of the light-projected area 5. Since the light collecting unit 2 is arranged in the light body 1 (as shown in Fig. 1) and the reflecting cup 11 is arranged in the light body 1, Emitted light A emitted from the illuminating unit 3 disposed in the optical fiber 1 and reflected light B reflected from the reflecting cup 11 and light around and outside the optical body 1 can be received, When the illumination unit 3 of the light source unit 1 is illuminated, it affects the micro control unit to misjudge. An error may be generated. 2, the solid line indicates the luminous intensity and current determined by the micro control unit, and the dotted line indicates the actual luminous intensity and current of the light projection area) May not accurately respond to the ambient light intensity of the illumination unit 5, so that the lights of the illumination unit may be insufficiently or excessively filled, and the luminosity may be lower or higher.

In view of the circumstances described above, the inventor has invested a lot of time to study relevant knowledge, comparing pros and cons, and researching and developing related products. After extensive experiments and tests, the "Intelligent Vehicle Intelligent Lighting System" of the present invention has finally been introduced to improve the above disadvantages and meet the use of the public.

It is an object of the present invention to provide an intelligent illumination device for a vehicle to overcome the disadvantages of the prior art. Disadvantages are that the lights can not fill and dim the illumination luminosity corresponding to the power saving and the ambient luminosity of the light projection area.

In order to improve the above-mentioned disadvantages, an intelligent illumination device for a vehicle is provided. The intelligent lighting device may include a light body, a light collection unit, a lighting unit, and an optical focus glass,

A concave reflective cup having an open end is disposed at the front end of the optical body, the optical focus glass is disposed at the open end of the cup, and the illumination unit is disposed at an inner wall of the rear end of the cup opposite to the open end Wherein the light collecting unit is disposed in the light body, and a light projection area disposed at the front end of the light body is defined by cooperating the light unit and the optical focusser, Facing the light projection area and detecting the ambient light intensity of the light projection area;

The micro control unit and the pulse-width modulation unit are further disposed in the light collecting unit and electrically connected to each other, and the difference of the ambient light intensities is determined by a predetermined ambient light intensity by the micro- And then said digital information is transmitted to said pulse-width modulation unit and is commanded to be modulated to increase or decrease the optical intensity of said illumination unit corresponding to said light projection area; And

The output current of the pulse-width modulation unit is zero when the light collection unit is collecting the ambient light intensity even when the illumination unit is not illuminated so that there is no optical intensity in the light body, And the ambient light intensity of the light projection area is accurately detected when the ambient light intensity of the light projection area is being collected.

In some embodiments, a differential amplifier and an analog-to-digital converter are further disposed in the light collection unit, and the ambient light intensity of the light projection area is detected by the differential amplifier for transfer to detection information, The detection information is amplified and then transmitted to the analog-to-digital converter, and the detection information is converted from analog to digital by the analog-to-digital converter and transmitted to the microcontroller unit, The digital information received from the microcontroller unit is compared with the predetermined ambient light intensity by the microcontrol unit to provide more accurate detection and calculation.

In some embodiments, a buffering unit is further disposed in the light collecting unit, and a predetermined buffer value is preset in the buffering unit, and the illuminating unit is arranged in the light- And not to modulate light through the micro-control unit and the pulse-width modulation unit when the intensity modulation time is less than the predetermined buffer value; And the intensity modulation time and the luminosity are integrally calculated by the buffering unit and the micro control unit, and then the illumination unit is adapted to calculate the intensity modulation time of the light projection area detected by the light collection unit, And is instructed to modulate to increase or decrease the intensity through the micro-control unit and the pulse-width modulation unit when it is greater than the buffer value.

In some embodiments, the light collection unit is disposed in the reflective cup.

In some embodiments, the light collection unit may be a photosensitive semiconductor and may include the differential amplifier and the illumination unit to form an integrated element with light emission, light reception, and optical signal amplification .

The horizontal distance of the light-projected area is a distance that the driver or driver can recognize and warn for the light body with batteries to provide power savings, and is 5 to 30 meters from the light body.

In some embodiments, the light body may further comprise an adjustment unit electrically connected to the micro-control unit and adapted to manually adjust the illumination effect of the illumination unit. The illumination unit may be manually adjusted for brightness by users to provide a more stable illumination effect.

An intelligent lighting device for a vehicle is further disclosed. The intelligent lighting device includes a light body, a light collecting unit, a lighting unit, and an optical focus glass,

A concave reflective cup having an open end is disposed at the front end of the optical body, the optical focus glass is disposed at the open end of the cup, and the illumination unit is disposed at an inner wall of the rear end of the cup opposite to the open end Wherein the light collecting unit is disposed in the light body, and a light projection area disposed at the front end of the light body is defined by cooperating the light unit and the optical focusser, Facing the light projection area and detecting the ambient light intensity of the light projection area; And

A gray scale image processor and a micro control unit electrically connected to each other are arranged in the light collection unit such that an image of the light projection area is provided by the micro control unit for judging the brightness or the image of the gray- Scale value to further modulate the optical intensity of the illumination unit.

Various objects and advantages of the present invention will become more readily apparent from the following detailed description when read in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a prior art diagram in which the luminosity of a conventional light collecting unit disposed in a light body is affected.
FIG. 2 is a prior art curve diagram indicating the ambient light level, driving current level-time, and illumination intensity level-time in the projection area-time.
3 is a cross-sectional view of an automotive intelligent lighting apparatus according to the present invention (the analog load of the PWM is zero).
4 is a block diagram of an intelligent illumination device for a vehicle according to the present invention.
5 is a cross-sectional view of an automotive intelligent lighting apparatus according to the present invention (PWM analog load is 1).
FIG. 6 is a curve diagram of an intelligent illumination device for a vehicle according to the present invention, which indicates the illumination luminous intensity level in the ambient light intensity level, the drive current level-time, and the light projection area-time in the light projection area-time.
7 is a block diagram of another embodiment of the intelligent lighting device for a vehicle of the present invention.

In order to make it clear that the present invention achieves the objects and features described above, the technical characteristics and desired functions are described with reference to the accompanying drawings and the preferred embodiments.

3, the present invention relates to an intelligent lighting device for a vehicle, such as a bicycle. The intelligent lighting device mainly includes a light body 1, a light collecting unit 2, a lighting unit 3 and an optical focal-point glass 4. [

The concave reflective cup 11 having an open end can be disposed at the front end of the light body 1. [ The optical focus glass 4 may be disposed at the open end of the cup 11. [ The lighting unit 3 can be disposed on the inner wall of the rear end of the cup 11 opposite to the open end. The light collecting unit 2 may be disposed in the light body 1. [ The light projection area 5 disposed at the front end of the light body 1 can be defined by cooperation of the illumination unit 3 and the optical focal point glass 4. [ The light collecting unit 2 also faces the light projection area 5 (as shown in Fig. 3) and detects the ambient light intensity of the light projection area 5. Fig.

The micro control unit 23 and the pulse-width modulation unit 24 are further disposed in the light collecting unit 2 (as shown in Fig. 4). The microcontrol unit (MCU) 23 has a predetermined ambient light intensity and the pulse-width modulation unit (PWM) 24 is used to transmit the analog signal as a pulse. The period of the pulse is constant after delivery, but the duty cycle of the pulse is changed based on the analog signal and thereafter the light intensity of the illumination unit 3 is also changed. The voltage / current with the ON / OFF repetitive pulse sequence is set to the analog load and then the whole is ON (digital to 1) or OFF (digital to 0).

The light collecting unit 2, the micro control unit 23, and the pulse-width modulation unit 24 may be electrically connected to each other. The difference in the ambient light intensities is calculated by comparing the digital information received from the light collection unit 2 with the predetermined ambient light intensities by the micro control unit 23 and then the digital information is stored in the pulse- And is instructed to modulate to increase or decrease the optical intensity of the illumination unit 3 corresponding to the light projection area 5. The illumination unit 3 is not illuminated (as shown in FIGS. 3 to 5) so that there is no optical intensity in the light body 1 and then the ambient light intensity of the light-projected area 5 is detected by the light- The output current of the pulse-width modulation unit 24 is zero when the light collecting unit 2 collects the ambient light intensity even when it is correctly detected when collecting the ambient light intensity of the light projection area 5. [

Differential amplifier 21 and analog-to-digital converter 22 are further disposed in light collection unit 2 (as shown in Fig. 2). The ambient light intensity of the light projection area 5 can be detected by the differential amplifier 21 and the detected information is then transmitted to the analog-to-digital converter 22 after the detected information has been amplified (the analog- Signal to the digital signal). The analog-to-digital converter 22 transfers the detected information with the analog signals to the digital signals and then the detected information with the digital signals is transmitted to the microcontroller 23 for calculation.

The light collecting unit 2 may be a photosensitive semiconductor and may also include a differential amplifier 21 and a lighting unit 3 to form an integrated element that performs light emission, light reception, and optical signal amplification.

In addition, the light body 1 may further include an adjustment unit 26 electrically connected to the micro control unit 23 and provided for manually adjusting the illumination effect of the illumination unit 3. The lighting unit 3 can be adjusted manually by the users to provide a more comfortable lighting effect.

The luminosity of the illumination unit 3 corresponding to the difference is modulated by the pulse-width modulation unit 24 to increase or decrease the luminosity based on the ambient luminosity. The light intensity of the light projection area 5 is detected due to the assembly and effect of the light collection unit 2 and is amplified by the differential amplifier 21 and thereafter the predetermined ambient light intensity and the ambient light intensity of the light projection area 5 And is calculated by the analog-to-digital converter 22 and the microcontrol unit 23 so that the illumination unit 3 compensates for the brightness corresponding to the difference or reduces the ambient light intensity of the light projection area 5 (Differential amplifier 21 and analog-to-digital converter 22 can provide more accurate detection and computation).

The buffering unit 25 may further be arranged in the light collecting unit 2. [ The predetermined buffer value may be preset in the buffering unit 25. [ When the luminosity modulation time of the light projection area 5 detected by the light collection unit 5 is smaller than the predetermined buffer value, the illumination unit 3 controls the micro control unit 23 and the pulse-width modulation unit 24 Lt; / RTI > The light collection unit 2 instructs the illumination unit 3 not to modulate the luminous intensity so as to prevent flashing when the ambient light intensity of the light projection area 5 is flashing off in a short time.

It is determined by the buffering unit 25 that there are clear and non-temporal changes in the luminosity, and the luminosity modulation time and luminosity are integrally calculated by the buffering unit 25 and the micro-control unit 23, When the intensity modulation time of the light-projected area 5 detected by the micro-control unit 23 and the pulse-width modulation unit 24 is greater than a predetermined buffer value, the illumination unit 3 increases or decreases the brightness through the micro- To be modulated.

The present invention has many features.

First, the ambient light intensity of the light-projected area 5 is detected by the light-collecting unit 2, and then the difference between the predetermined ambient light intensity and the detected information compensates or reduces the ambient light intensity of the light- The illumination unit 3 is operated. In particular, the output current of the pulse-width modulation unit 24 is zero (the illumination unit 3 is not turned on) when the light collection unit 2 is receiving the ambient luminance of the light projection area 5. [ The ambient light intensity of the light projection area 5 when the light collecting unit 2 is receiving the ambient light intensity can be accurately detected because there is no light intensity in the light body 1 and thereafter the light intensity of the light body 1 can be accurately detected, The light intensity of the light projection area 5 can be adjusted based on the light intensity of the light projection area 5. [

Secondly, the power supply portion disposed in the light body 1 can be designed to have an appropriate capacity and volume due to the characteristics of adjusting the light intensity of the light body 1 based on the light intensity of the light-projected region 5. [ The volume of the power supply (such as a battery) is reduced and further the volume and weight of the light body 1 are reduced. In addition, battery life can be prolonged as compared with the prior art.

Thirdly, the brightness is not immediately supplemented or reduced by the lighting unit 3 due to the placement of the buffering unit 25 when the light is flash off in the light projection area 5 to prevent unwanted flashing. Users will not be troubled by fast flashing. It is possible to supply stable illumination in an ideal field of view when determined by the buffering unit 25 so that the flash in the light projection area 5 can be changed stably and reliably.

Fourth, vehicles in urban areas or suburbs require different lighting due to insufficient light in urban areas with lots of street lights and inadequate light in suburban areas with low density distribution of road lights. It requires lower illumination in the urban area and more illumination in the suburban area based on the detection of the light-projected area 5 having the light-collecting unit 2 when the intelligent lighting system of the present invention is applied.

FIG. 6 is a curve diagram of an intelligent illumination device for a vehicle according to the present invention, which indicates the illumination luminous intensity level in the ambient light intensity level, the drive current level-time, and the light projection area-time in the light projection area-time. The ambient light level in the projection area means that the light intensity is provided from the ambient environment to the light projection area. The driving current level means that when the intelligent lighting device of the present invention is applied to an electromechanical system, the driving current is generated from the electromechanical system corresponding to the luminous intensity. The illumination luminous intensity level means the sum of the light projected from the light projection area and the ambient luminous intensity. In Fig. 6, when the ambient light level in the light projection area 5 is lowered, the light intensity (light) has to be more filled by the lighting unit 3 and the driving current is also increased. After the ambient light intensity in the light projection area 5 is filled with light (luminosity), the total luminosity always maintains a predetermined constant and all values are close to their actual values.

7, a gray-scale image processor 6 and a micro-control unit 23, which are electrically connected to each other, are disposed in a light collecting unit 2 and are arranged in a light projection area 5 Scale value for modulating the luminous intensity of the illumination unit 3, as well as to provide the microcontroller 23 with an image of the luminance or gray-scale value to determine the image of the luminance or gray-scale value.

The above description is only illustrative embodiments of the present invention, and the claims of the present invention are not intended to be limited by the embodiments. And is intended to cover equivalent embodiments or variations without departing from the spirit and scope of the invention.

Since the disclosed structure of the present invention is recognized as a new and progressive invention and is not visible in the prior art and features better efficiency than conventional structures, the present application was filed in accordance with the patent law.

1: optical body 2: light collecting unit 3: illuminating unit 4: optical focusing glass

Claims (6)

An optical body, a light collecting unit, a lighting unit, and an optical focusing glass,
A concave reflective cup having an open end is disposed at the front end of the light body, the optical focus glass is disposed at the open end of the cup, and the illumination unit is disposed at the inner wall of the rear end of the cup opposite to the open end Wherein the light collecting unit is disposed in the light body and a light projecting area disposed at the front end of the light body is defined by cooperation of the light unit and the optical focus glass, The ambient light intensity of the light projection area is detected,
A micro-control unit and a pulse-width modulation unit electrically connected to each other are further disposed in the light collecting unit, and a difference in ambient light intensity is detected between a predetermined ambient light intensity by the micro-control unit and digital light information received from the light- And said digital information is then transmitted to said pulse-width modulation unit and is commanded to be modulated to increase or decrease the optical intensity of said illumination unit corresponding to said light projection area,
The output current of the pulse-width modulation unit is zero when the light collection unit is collecting the ambient light intensity even when the illumination unit is not illuminated so that there is no optical intensity in the light body, Wherein the ambient light intensity of the light projection area is accurately detected when the ambient light intensity of the light projection area is being collected. 2. The apparatus according to claim 1, wherein a differential amplifier and an analog-to-digital converter are further disposed in the light collecting unit, the ambient light intensity of the light projection area is detected by the differential amplifier for transfer to detection information, Digital converter, and the detection information is converted from analog to digital by the analog-to-digital converter and transmitted to the microcontroller unit so that the difference in ambient light intensity is received from the light collecting unit And the micro-control unit compares the digital information with the predetermined ambient light intensity by the micro-control unit to provide more accurate detection and calculation. 2. The apparatus according to claim 1, wherein a buffering unit is further disposed in the light collecting unit, a predetermined buffer value is preset in the buffering unit, and the illuminating unit includes a light intensity modulation And not to modulate the light through the micro-control unit and the pulse-width modulation unit when the time is less than the predetermined buffer value,
Wherein said intensity modulation time and said luminous intensity are integrally calculated by said buffering unit and said microcontroller unit and thereafter said illumination unit is operable to determine that said luminosity modulation time of said light projection area detected by said light- Value is greater than or equal to a predetermined value, the micro-control unit and the pulse-width modulation unit are instructed to modulate the light intensity to increase or decrease the light intensity. The intelligent illumination device for a vehicle according to claim 1, wherein the light collecting unit is disposed in the reflecting cup. The intelligent illumination device for a vehicle according to claim 1, wherein the light collecting unit is a photosensitive semiconductor. An optical body, a light collecting unit, a lighting unit, and an optical focusing glass,
A concave reflective cup having an open end is disposed at the front end of the light body, the optical focus glass is disposed at the open end of the cup, and the illumination unit is disposed at the inner wall of the rear end of the cup opposite to the open end Wherein the light collecting unit is disposed in the light body, and a light projection area disposed at a front end of the light body is defined by cooperating with the light unit and the light focusing lens, The ambient light intensity of the light projection area is detected,
A gray scale image processor and a micro control unit electrically connected to each other are arranged in the light collection unit so that an image of the light projection area is provided by the micro control unit for judging the brightness or the image of the gray- Scale value in order to further modulate the optical intensity of the illumination unit.

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