KR20120035431A - Apparatus for adjusting the brightness of liquid crystal display device in electric vehicle charging stand - Google Patents

Abstract

PURPOSE: A control device of an electric vehicle battery charger liquid crystal display apparatus is provided to optimize the brightness of a backlight by introducing an apparatus for user recognition and external illuminance detection. CONSTITUTION: A sensor part(110) detects a distance from an adjacent object. A user recognition part(120) compares the detected distance with pre-saved distance information. The user recognition part generates a user detection signal. A controller(130) receives the user detection signal. The controller operates a liquid crystal display apparatus.

Description

Control device for EV battery liquid crystal display device (APPARRATVS FORR ADSBTSTVITV THB ELVIVHTVNESOS OP BIXB DCBRSTVABL DCSIPLACDVIBCIECEU

The present invention relates to a control device for an electric vehicle charger liquid crystal display device. More particularly, the present invention relates to a liquid crystal display device for an electric vehicle charger, and to recognize a user presence and external illuminance to turn on / off the liquid crystal display device. On / Off) and the adjustment device to adjust the brightness.

 Recently, as energy and environmental issues have emerged as major issues, there is a growing interest in green cars, which are eco-friendly new technology vehicles that have high efficiency and low emissions compared to existing internal combustion engine cars. Green cars include hybrid cars, plug-in hybrid cars, clean diesel cars, fuel cell cars, and electric cars. Hereinafter, the electric vehicle or the electric vehicle refers to all vehicles requiring electric charging. Recently, the government announced plans to mass-produce electric vehicles in 2011, and demand for electric vehicles is expected to skyrocket. In the case of electric vehicles, in addition to the professional charging station, can be charged in the parking lot at work and home, etc. In general, it takes 4-6 hours or more for a single charge and 30 minutes to 1 hour or more for a quick charge.

On the other hand, since most of the liquid crystal display devices are light-receiving elements that display an image by adjusting the amount of light source coming from the outside, a separate light source for illuminating the liquid crystal panel, that is, a backlight, is necessarily required. As the backlight used in the device has a lifespan, the performance is greatly deteriorated after a certain time and the brightness is darkened, resulting in a decrease in display quality.

The user of the EV charger uses only the shorter time of the entire charging time, since the time of using the agreement display device of the EV charger is mostly the time of starting charging and ending the charging. Therefore, in consideration of this, the brightness and the on / off control of the liquid crystal display are necessary in terms of power consumption or lifespan.

The liquid crystal display of the conventional electric vehicle charger is continuously lit even when there is no user. In addition, in order to adjust the brightness of the LCD according to the ambient brightness, the user needs to adjust it manually. The brightness of the LCD is fixed so that the display contents can be viewed based on the lowest sunlight. There is a disadvantage that the life of the liquid crystal display device is shortened.

Accordingly, an object of the present invention is to propose an on / off and brightness control device of a liquid crystal display device incorporating a user presence recognition and an external illuminance detection device in a liquid crystal display device of an electric vehicle charger.

According to the present invention, when the user enters the electric vehicle charger within a predetermined distance, the liquid crystal display is turned on, and when the user is not recognized within the predetermined distance, the liquid crystal display is turned off.

According to the present invention, when an external brightness signal is input through means for measuring an external illuminance such as an optical sensor, the LCD may be displayed at an optimal brightness so that characters displayed on the LCD may be displayed to the user based on the input signal. Adjust the backlight brightness.

To this end, the control device of the EV charger liquid crystal display according to the present invention includes a sensor unit for sensing a distance to an object in proximity to the EV charger; A user presence / non-identification unit that generates a user detection signal when the distance from the object is smaller by comparing the distance with the object detected by the sensor to previously stored distance information; Receiving a user detection signal generated by the user presence / non-confirmation unit turns on (On) the liquid crystal display of the electric vehicle charger, and if the user detection signal is not received for a predetermined time to turn off the liquid crystal display (Off) And a control unit.

The sensor unit may be an ultrasonic sensor that detects a distance to an object, or detect a distance to the object using a camera.

And the control device of the EV charger liquid crystal display device according to the present invention includes an optical sensor unit for sensing the external illuminance; And a brightness adjusting unit which compares the external illuminance level sensed by the optical sensor unit with brightness level information of a liquid crystal display, and generates a brightness level signal of the liquid crystal display through the comparison. The control unit receives the brightness level signal generated by the brightness adjusting unit and controls the brightness of the liquid crystal display according to the signal.

Here, the optical sensor unit is characterized in that using the photodiode or the illumination sensor of the camera.

The present invention adjusts the on / off of the liquid crystal display in the electric vehicle charger according to the presence or absence of a user, thereby reducing power consumption and extending the life of the liquid crystal display device than when the liquid crystal display is always turned on.

In addition, the brightness of the liquid crystal display device is automatically adjusted according to the external illumination, thereby solving the conventional problem that the user had to adjust directly and providing a more convenient user interface. This, of course, extends the life of the liquid crystal display.

1 is a view showing an embodiment of a liquid crystal display control device according to the present invention.
2 is a flowchart illustrating that on / off of the liquid crystal display is controlled according to the present invention.
3 is a flow chart illustrating that the brightness of the liquid crystal display device is adjusted according to the present invention.

The following detailed description is only illustrative, and merely illustrates embodiments of the present invention. In addition, the principles and concepts of the present invention are provided for the purpose of explanation and most useful.

1 is a view showing an embodiment of a liquid crystal display control device according to the present invention.

The adjusting device 100 may include a sensor unit 110, a user presence / nonconfirmation unit 120, an optical sensor unit 140, a brightness adjusting unit 150, and a controller 130.

The sensor unit 110 is configured to detect an object approaching the electric vehicle charger, and has a configuration of measuring the distance to the object by using an ultrasonic sensor or a camera that can measure the distance to the object. .

The user presence / non-determination unit 120 compares the distance with the object detected by the sensor unit 110 with previously stored distance information. Here, the distance information stored in advance is a distance value used when the user approaches the liquid crystal display 160 of the EV charger to charge the electric vehicle. When the user is located at a certain distance, the distance information may be used. It should be saved in advance depending on whether to turn it on.

The user presence / non-determination unit 120 generates a user detection signal when the distance from the object is smaller as a result of the comparison.

The control unit 130 receives the user detection signal generated by the user presence / absence confirmation unit 120. Then, the liquid crystal display device 160 of the EV charger in which the power is off is turned on. The controller 130 turns off the power of the liquid crystal display 160 again when the user detection signal is not transmitted from the user presence / non-determination unit 120 for a predetermined time.

In addition, the electric vehicle charger is installed in the room, and is installed in the outdoor, like the fueling device of the existing gas station. When installed outdoors, it is difficult to see the characters displayed on the liquid crystal display 160 due to sunlight intensity during the day, thereby making the liquid crystal display 160 more bright. On the other hand, when it is night or installed indoors, the display device can be seen better compared to the outside even if the backlight of the liquid crystal display device 160 is darker. When the backlight of the liquid crystal display 160 is turned on at the same brightness as in the daytime even though the surroundings are dark, it may cause fatigue to the user's eyes and also shorten the lifespan.

Therefore, the light sensor unit 140 senses the illumination around the electric vehicle charger. In this case, the optical sensor unit 140 may be configured to use a photodiode or to use an illumination sensor of a camera. Since the illumination sensor of the camera can detect the external illumination intensity more precisely, if there is a camera already installed in the EV charger, it may be preferable to configure the camera to acquire information on the external illumination using the camera.

The brightness controller 150 compares the external illuminance level sensed by the optical sensor unit 140 with the brightness level information of the liquid crystal display 160 stored in advance. The brightness of the backlight portion of the conventional LCD 160 is fixed to an arbitrary level or is configured to allow the user to manually adjust the brightness level. The brightness adjusting unit 150 stores the brightness level information of the adjustable liquid crystal display 160 in advance, and the user can recognize the characters displayed on the liquid crystal display 160 on the external illuminance well in comparison with the external illuminance level. It is configured to generate a sufficient level of brightness signal. As mentioned above, the brightness of the liquid crystal display 160 should be set to a brightness level higher than the external illuminance level during the day, and thus generates the highest brightness level signal and a relatively low brightness level signal at night because the external illuminance level is low. Configure to

The controller 130 receives the brightness level signal generated by the brightness controller 150 and adjusts the backlight brightness intensity of the liquid crystal display device 160 according to the signal.

2 is a flowchart illustrating that on / off of the liquid crystal display is controlled according to the present invention.

Looking at, the sensor unit 110 detects the distance to the object close to the electric vehicle charger (S200), the distance detected by the user presence / absence check unit 120 in the sensor unit 110 than the predetermined distance value Check whether it is small (S210). If small, a user detection signal is generated (S220).

When the user detection signal is generated, the controller 130 turns on the power of the EV charger 160 (S230). The controller 130 checks whether the signal is continuously generated for a predetermined period of time (S240). If not, the controller 130 turns off the power of the liquid crystal display device 160 (S250), and if it is continuously generated, maintains the current state.

3 is a flowchart illustrating that the brightness of the liquid crystal display according to the present invention is adjusted.

As shown in FIG. 2, when the user is recognized on a nearby distance and the power of the liquid crystal display device 160 is turned on, external illumination is sensed through the optical sensor unit 140 (S300). The brightness controller 150 automatically selects a brightness level of the liquid crystal display according to the detected external illuminance level (S310). The controller 130 adjusts the backlight brightness of the liquid crystal display device 160 at the selected brightness level (S320).

Automatic brightness level selection of the brightness adjusting unit 150, the brightness control unit 150 has previously stored the adjustable brightness level information of the liquid crystal display 160, and compared to the external illuminance level, the user is the liquid crystal display ( Automatically selects a brightness level higher than the external illuminance level enough to recognize the characters displayed in 160). As mentioned earlier, sunlight automatically selects a relatively low brightness level at night compared to strong days.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Various changes and modifications will be possible.

100: adjusting device 110: sensor unit
120: user presence / absence confirmation unit 130: control unit
140: light sensor unit 150: brightness adjustment unit
160: liquid crystal display device

Claims (5)

A sensor unit detecting a distance from an object proximate to the electric vehicle charger;
A user presence / non-identification unit that generates a user detection signal when the distance from the object is smaller by comparing the distance with the object detected by the sensor to previously stored distance information;
Receiving a user detection signal generated by the user presence / non-confirmation unit to turn on (On) the liquid crystal display of the electric vehicle charger, and if the user detection signal is not received for a predetermined time to turn off the liquid crystal display (Off) Control unit; the control device of the electric vehicle charger liquid crystal display device comprising a.
The method of claim 1,
The sensor unit includes:
And an ultrasonic sensor for sensing a distance from an object.
The method of claim 1,
The sensor unit
The apparatus of claim 1, wherein the distance between the object and the object is detected using a camera.
The method of claim 1,
An optical sensor unit for sensing external illuminance;
And a brightness adjusting unit which compares the external illuminance level sensed by the optical sensor unit with brightness level information of the liquid crystal display, and generates the brightness level signal of the liquid crystal display through the comparison.
And the control unit receives the brightness level signal generated by the brightness adjusting unit and controls the brightness of the liquid crystal display according to the signal.
The method of claim 4, wherein
The optical sensor unit,
An apparatus for controlling a liquid crystal display of an electric vehicle charger, characterized by using a photodiode or an illumination sensor of a camera.

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