KR19980047678U - Indoor lighting device adjusts the brightness according to the surrounding brightness - Google Patents

Abstract

The present invention relates to an indoor lighting device that adjusts the brightness according to the ambient brightness to automatically adjust the level of the power supplied to the various lights according to the ambient brightness, that is, the brightness of the vehicle interior. That is, it is a microcomputer that determines the illumination brightness according to the CdS sensor CdS whose resistance value is converted according to the ambient brightness, and the power level applied by being divided by the CdS sensor CdS, and generates an oscillation signal corresponding thereto. And an oscillation circuit 200 for oscillating a pulse corresponding to the brightness of illumination L1 to Ln by receiving the oscillation signal of the microcomputer 100 and a pulse output from the oscillation circuit 200. By configuring the driving unit 300 to adjust the brightness of the lights (L1 ~ Ln), it is possible to automatically adjust to the ambient brightness of the indoor lighting.

Description

Indoor lighting device adjusts the brightness according to the surrounding brightness

The present invention relates to an indoor lighting device that adjusts the brightness according to the ambient brightness, and more particularly, to automatically adjust the level of power supplied to various lights according to the ambient brightness, i.e. the brightness of the vehicle interior, to properly adjust the brightness of the lighting. It relates to an indoor lighting device that adjusts the brightness according to the ambient brightness to be adjusted.

Looking at the lighting brightness control device for adjusting the brightness of the lights installed in the interior of the conventional vehicle according to Figure 2, first, the switch (SW1 ~ SWn) connected in series to each of the lights (L1 ~ Ln) on or off state When switching to, the power supply (Vcc: for example, the output power of the battery or the alternator) is supplied to each of the lights L1 to Ln through the switches SW1 to SWn that are switched on, and they are turned on. .

At this time, if the driver adjusts the resistance value of the variable resistor VR in order to adjust the brightness of the lights L1 to Ln (L1 to Ln), the driver divides the power applied by the variable resistor VR whose resistance value is variable. The approved microcomputer 101 generates an oscillation signal corresponding thereto and supplies it to the oscillation circuit 102. Then, the oscillator circuit 102 generates a pulse for adjusting the brightness of the oscillation signal, that is, the lights L1 to Ln, and supplies it to the base side of the transistor TR. At this time, the output of the oscillation circuit 102 supplied to the base side of the transistor TR is converted into a direct current component by the resistor R1 and the capacitor C and applied.

According to the operation of the transistor TR, the level of the power applied to each of the lights L1 to Ln is adjusted to adjust the brightness of each of the lights L1 to Ln.

However, in the lighting device as described above, in order to adjust the brightness of each light, a driver or a passenger has to change the resistance value of the variable resistor.

The present invention has been devised to solve the above-mentioned drawbacks, and it is possible to automatically adjust the level of power supplied to various lights according to the ambient brightness, i.e., the brightness of the vehicle's interior. The purpose is to provide an indoor lighting device that adjusts the brightness according to the brightness.

1 is a circuit diagram according to the present invention,

2 is a circuit diagram showing a conventional indoor lighting device.

* Explanation of symbols for main parts of drawings

100: microcomputer 200: oscillation circuit

300: driving unit CdS: CdS sensor

R, R1: Resistor TR: Transistor

L1, L2, L3, Ln: Illumination

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a circuit diagram according to the present invention.

According to the present invention, as shown in FIG. 1, the illumination brightness is determined according to the CdS sensor CdS whose resistance value is changed according to the ambient brightness, and the power level applied by the voltage divided by the CdS sensor CdS. A microcomputer 100 for generating a corresponding oscillation signal, an oscillation circuit 200 for oscillating a pulse corresponding to the brightness of illumination L1 to Ln upon receiving the oscillation signal of the microcomputer 100, and the oscillation circuit ( The driving unit 300 is configured to adjust the brightness of the lights (L1 ~ Ln) by receiving the pulse output from the 200.

The operation of the present invention configured as described above will be described.

As in the prior art, when the switches SW1 to SWn connected in series to the respective lights L1 to Ln are switched on or off, the switches SW1 to SWn in which the power supply Vcc is switched to each on state are switched on. Are supplied to the respective lights L1 to Ln, and they are turned on.

At this time, if the resistance value of the CdS sensor CdS whose resistance value is changed according to the ambient brightness is converted to correspond to the ambient brightness, the resistance is divided by the CdS sensor CdS and the resistance R whose resistance value is changed to correspond to the ambient brightness. The microcomputer 100 receiving the applied power generates an oscillation signal corresponding thereto and supplies it to the oscillation circuit 200. Then, the oscillation circuit 200 generates a pulse for controlling the brightness of the oscillation signal, that is, the lights L1 to Ln, and supplies it to the base side of the transistor TR. At this time, the output of the oscillation circuit 200 supplied to the base side of the transistor TR is converted into a direct current component by the resistor R1 and the capacitor C and applied.

According to the operation of the transistor TR, the level of the power applied to each of the lights L1 to Ln is adjusted to adjust the brightness of each of the lights L1 to Ln. In other words, the brightness of the lights (L1 ~ Ln) is automatically adjusted to correspond to the ambient brightness without the driver or manually adjusting the brightness of the lights (L1 ~ Ln).

As described above, the present invention adjusts the power level applied to each light by using the CdS sensor whose resistance value is changed according to the ambient light, so that the driver does not need to manually adjust the brightness of the light to correspond to the ambient light. The brightness is automatically adjusted.

The present invention is not limited to the specific preferred embodiment described above, and any person having ordinary knowledge in the field to which the present invention belongs without departing from the gist of the present invention claimed in the scope of utility model registration claims Would be possible.

Claims (1)

A CdS sensor CdS whose resistance value is converted according to ambient brightness; A microcomputer 100 determining illumination brightness according to the power level applied by the CdS sensor CdS and generating an oscillation signal corresponding thereto; An oscillation circuit 200 receiving an oscillation signal of the microcomputer 100 and oscillating a pulse corresponding to the brightness of the lights L1 to Ln; Indoor lighting device for adjusting the brightness according to the ambient brightness, characterized in that the driving unit 300 for adjusting the brightness of the lights (L1 ~ Ln) by receiving the pulse output from the oscillator circuit 200.