KR20160025991A - lighting apparatus for car - Google Patents

Abstract

The present invention relates to a lighting apparatus for safety of a car. The lighting apparatus comprises: a light source part which has at least one light source for emitting light by being installed in the car; a sensing part for detecting at least one of driving speed variation, vibration, impact and rotation of the car; and a control unit which controls to change the intensity of the light emitted from the light source part according to an established variable pattern if sensing information detected in the sensing part corresponds to an established event generation condition. By the lighting apparatus for safety of the car mentioned in the above, provided is an advantage of being able to secure an image having an optimum exposure value by emitting the intensity of the light variably under the situation that image recording is required.

Description

[0001] The present invention relates to a lighting apparatus for car,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a safety light irradiation apparatus for an automobile, and more particularly, to a safety light irradiation apparatus for a vehicle that emits light with a variable amount of light in accordance with a set event occurrence condition.

In the event of a car accident, more and more black boxes are installed in vehicles to provide accurate evidence of accidents.

Such a vehicle black box is used for rapid post-accident handling and scientific accident analysis by recording a situation during driving of a vehicle, a situation before and after an accident, and the importance of the accident has been strongly recognized with the recent rapid increase in vehicle accidents.

In particular, various data recorded in the black box for automobiles are used as evidence for analyzing the cause of the accident, and are used as evidence for resolving various civil-related disputes.

Such a vehicle black box is variously disclosed in Korean Patent Laid-Open No. 10-2014-0088822.

However, since the camera mounted on the vehicle-mounted black box operates by automatic exposure, it is difficult to suitably expose the subject to the image, so that a specific portion of the image to be recorded is exposed to overexposure or underexposure, There is a problem that can be difficult.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a safety light illuminating device for an automobile, which can secure an image having an optimum exposure value by varying a light amount in a situation where image recording is required, There is a purpose.

According to an aspect of the present invention, there is provided an illumination device for a safety light for an automobile, including: a light source unit mounted on a vehicle and having at least one light source for emitting light; A sensing unit configured to detect at least one of a running speed change, a vibration, an impact, and a rotation of the automobile; And a control unit for controlling the light amount of the light emitted from the light source unit to vary according to the set variable pattern when the sensing information detected by the sensing unit corresponds to the set event generating condition.

According to an aspect of the present invention, the sensing unit includes a three-axis acceleration sensor for detecting a signal of a traveling direction, a left-right direction, and a vertical direction of the automobile, and the control unit controls acceleration / An event determination condition for determining whether the event occurrence condition corresponds to the rotational angle value in the left and right direction and the vibration value in the vertical direction is set.

Also, the variable pattern set in the control unit is a basic variable pattern in which the amount of light is increased or decreased, and the control unit controls the light source unit so that the basic variable pattern is repeated for the set repetition times.

According to another aspect of the present invention, there is provided a digital camera, comprising: a black box installed in the vehicle for capturing and recording an external image; And an external interface for interfacing between the control unit and the black box so that the control unit can read and process the image information of the black box, wherein the control unit controls the image frame of the image captured in the black box And determines a value obtained by weighting the calculated average gray level as a reference level, and if the average gray level of the surveillance region in the image frame is equal to or lower than the reference level, And controls the amount of light emitted from the light source unit to vary according to the set variable pattern.

In addition, the light source unit may include a first light source unit for the right area of the automobile, and a second light source unit for the left area of the automobile. When the signal output from the sensing unit corresponds to a right turn, The first light source unit may be controlled to emit light and the second light source unit may be controlled to emit light when the signal output from the sensing unit corresponds to a left turn.

According to the safety light irradiating apparatus for an automobile according to the present invention, it is possible to secure an image having an optimum exposure value by outputting a variable amount of light in a situation where image recording is required.

1 is a block diagram showing a safety light irradiation apparatus for a vehicle according to the present invention,
Figs. 2 to 4 are graphs showing examples of the light amount variable pattern,
5 is a flow chart showing the control process of the control unit of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a light irradiation apparatus for safety of a vehicle according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a safety light irradiation apparatus for a vehicle according to the present invention.

Referring to FIG. 1, a safety light illuminating apparatus 100 for a vehicle according to the present invention includes a light source 110, a sensing unit 120, and a control unit 130.

The light source unit 110 is mounted on the vehicle so as to emit light to the outside.

It goes without saying that the light source unit 110 may be mounted on the outer surface of the vehicle or may be installed to emit light outdoors from the inside of the vehicle.

The light source unit 110 includes a first light source unit 112 for the right area of the vehicle and a second light source unit 114 for the left area of the vehicle.

The first light source unit 112 and the second light source unit 114 are independently controlled and driven, and may be constructed as light emitting diodes.

The sensing unit 120 is configured to detect at least one of a change in running speed of the vehicle, vibration, impact, and rotation.

The sensing unit 120 includes a three-axis acceleration sensor 121, an illuminance sensor 123, and a sensing processing unit 125.

The three-axis acceleration sensor 121 is a sensor capable of detecting a velocity change, an angle change, a vibration, or an impact with respect to three axes by detecting three axes, that is, signals in the traveling direction, the left and right direction, and the vertical direction of the vehicle.

It is needless to say that an acceleration sensor for detecting the acceleration in the running direction, a rotation detecting sensor for detecting the rotation in the lateral direction, and a sensor for detecting the vibration or the impact may be provided.

The illuminance sensor 123 detects the external illuminance.

The sensing processing unit 125 processes signals output from the three-axis acceleration sensor 121 and the illuminance sensor 123 into signals readable by the control unit 134 and outputs the signals to the control unit 134. [

The control unit 130 controls the light amount of the light emitted from the light source unit 110 to vary according to the set variable pattern when the sensing information detected by the sensing unit 120 corresponds to the set event generating condition.

The control unit 130 includes a light source driving unit 132, a control unit 134, and a vehicle speed sensing unit 136.

The light source driving unit 132 is controlled by the control unit 134 to drive the light source unit 110.

The vehicle speed sensing unit 136 may be applied to a vehicle to detect a traveling speed and to omit a portion for detecting a traveling speed in the sensing unit 120. In a case where the three-axis acceleration sensor 121 is applied Of course, can be omitted.

The control unit 134 determines whether the acceleration / deceleration value for the traveling direction of the vehicle, the rotation angle value for the left / right direction and the vibration value for the up / down direction corresponds to the event generation condition from the information received from the sensing unit 120 The controller 110 controls the light source driver 132 to emit light with a variable amount of light in the light source unit 110 according to the set variable pattern as described above .

As an example, the event determination condition may be set as a comparison reference value for determining an event generation condition for each of the rotation angle detection value Ax, the acceleration / deceleration value Ay for the moving direction, and the vibration value Az for the vertical direction Or a determination sensitivity weighting factor for each of the rotation angle detection value Ax, the acceleration / deceleration value Ay for the traveling direction, and the vibration value Az for the vertical direction, And a method of determining that the total sum value is equal to or greater than the set reference value after the multiplication, and a method of determining that it corresponds to the event generation condition.

On the other hand, the variable pattern set in the control unit 134 is a basic variable pattern in which the amount of light is increased or decreased. The control unit 134 controls the light source unit 110 to repeat the basic variable pattern for the set repetition times.

The basic variable pattern can be variously applied as shown in FIG. 2 to FIG.

That is, as shown in FIG. 2 (a), a method of repeating the same basic variable pattern while returning to the initial value after the light amount I is increased in a stepwise manner, or a method of repeating the same basic variable pattern as shown in FIG. A method of gradually increasing the light amount, a method of increasing the light amount increase pattern to have an arc shape as shown in (c), and the like can be applied.

4 (a), 4 (b), 4 (c), and 4 (d), a basic variable pattern in which the rising and the falling are symmetrical may be applied. it is needless to say that a basic variable pattern that reduces the amount of light while allowing the light amount of the highest value to be emitted is applied as shown in FIGS.

3 to 5 illustrate the case where the basic variable pattern is repeated twice to avoid the complexity of the drawing, and the setting value of the number of repetition times may be appropriately set.

Preferably, the execution time of the basic variable pattern is about 0.01 to 0.5 seconds in consideration of the number of recorded frames per second.

That is, when the execution time of the basic variable pattern shown in FIG. 2 is applied as 0.02 seconds as an example, it is possible to acquire images with different amounts of light for 50 recording frames per second, It is possible to acquire an image frame having an optimal exposure value among 50 recorded frames during a pattern execution time for a short execution time.

On the other hand, when the black box 200 installed in the vehicle and capturing and recording an external image is provided as shown in the event occurrence condition, the control unit 134 can access the image information of the black box 200 to read and process An external interface 150 for interfacing between the control unit 134 and the black box 200 is provided so that the control unit 134 can display the average gray of all the pixels of the current image frame of the image captured by the black box 200 A gray level is calculated and a weighted value set to the calculated average gray level is determined as a reference level. If the average gray level of the surveillance area in the video frame is lower than the reference level, So that the light amount of the light emitted from the light source unit 110 can be variably controlled in accordance with the variable pattern described above.

Here, the weights are appropriately set.

In addition, the surveillance area may be set appropriately within a range of 1 to 10 meters within the image frame, in which the license plate of the preceding vehicle is mainly picked up.

For example, in the case of the horizontal direction of the entire frame region, a portion corresponding to a 2/3 region when the horizontal direction is divided into 3 regions based on the center and a 3/5 point from 2/5 point from the lower portion of the frame region in the vertical direction May be set as a surveillance area, and such a surveillance area may be appropriately set in consideration of an angle of view and an installation position of a camera of a black box to which the surveillance area is applied.

For example, when the gray level is represented at 256 levels, the average gray level obtained by dividing the gray level of each of all the pixels for each frame by the total number of pixels is set to '1', and the entire average gray level is determined as the reference level And if the average gray level of the surveillance area is lower than the reference level, the controller 134 may be constructed so as to judge that it corresponds to the event generation condition.

5, the control unit 134 receives an event occurrence condition from the current image frame received from the black box 200 through the sensing unit 120, the vehicle speed sensing unit 136, and the external interface 150 (Step 310). If it is determined that the event occurs, the light source unit 110 is controlled to emit light in the variable light amount variation pattern as described above (step 320) It is determined whether the set number of times has been reached (step 3300). If it is determined in step 330 that the predetermined number of times has been reached, the light emission of the light source unit 110 is terminated and the process returns to step 310.

Here, the repetition number of the basic variable patterns set in the controller 134 may be appropriately set to several times to several tens of times.

The controller 134 may be configured to control the light quantity of the first and second light sources 112 and 114 to be variable in the variable pattern described above when the event generation condition is satisfied.

The control unit 134 controls the first light source unit 112 to emit light when the signal output from the sensing unit 120 corresponds to a right turn and does not correspond to the event generation condition, And to control the second light source unit 114 to emit light when the signal corresponds to a left turn.

Alternatively, when the signal output from the sensing unit 120 corresponds to a right turn only when the signal detected from the illuminance sensor 123 is determined to be equal to or less than the set reference illuminance, The first light source unit 112 may be controlled to emit light and the second light source unit 114 may be controlled to emit light when the signal output from the sensing unit 120 corresponds to a left turn.

As described above, according to the safety lighting apparatus 100 for an automobile, it is possible to secure an image having an optimal exposure value by emitting a variable amount of light in an important situation requiring image recording.

110: light source part 120: sensing part
130: control unit

Claims (5)

A light source unit mounted on the vehicle and having at least one light source for emitting light;
A sensing unit configured to detect at least one of a running speed change, a vibration, an impact, and a rotation of the automobile;
And a control unit for controlling the light amount of the light emitted from the light source unit to vary according to the set variable pattern when the sensing information detected by the sensing unit corresponds to the set event generating condition, . The apparatus of claim 1, wherein the sensing unit
And a three-axis acceleration sensor for detecting signals of a traveling direction, a lateral direction, and a vertical direction of the automobile,
The control unit
Wherein an event determination condition is set for determining whether the event generation condition corresponds to the acceleration / deceleration value for the traveling direction of the automobile, the rotational angle value for the left / right direction, and the vibration value for the up / down direction. For the safety light irradiation apparatus. 3. The apparatus according to claim 2, wherein the variable pattern set in the control unit
And the control unit controls the light source unit so that the basic variable pattern is repeated for the set number of repetitions. The method according to claim 1,
A black box installed in the vehicle for capturing and recording an external image;
And an external interface for interfacing between the control unit and the black box so that the control unit can read and process the image information of the black box,
The control unit calculates an average gray level from an image frame of an image picked up by the black box, determines a value obtained by weighting the calculated average gray level as a reference level, And when the level is lower than or equal to the reference level, it is determined that the condition corresponds to an event generation condition, and the amount of light emitted from the light source unit is controlled to vary according to the set variable pattern. 2. The vehicle according to claim 1, wherein the light source unit includes a first light source unit that takes charge of a right area of the automobile, and a second light source unit that takes a left area of the automobile,
Wherein the control unit controls the first light source unit to emit light when the signal output from the sensing unit corresponds to a right turn and controls the second light source unit to emit light when the signal output from the sensing unit corresponds to a left turn, A stabilizing light irradiation device for an automobile.

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