JPH05238309A - Vehicle room lamp lights-out control device - Google Patents

Abstract

PURPOSE:To provide a vehicle room lamp lights-out control device which controls a room lamp in a manner that it becomes linearly dimmer when a door is closed. CONSTITUTION:When a fade out detection circuit 100 detects a need to start dimming a room lamp, it sends out a fade out start signal. Based on the signal, a timer 106 outputs an elapsed time signal indicating the amount of time passing since the start of the lights-out. Based on the elapsed time, a function generation circuit 108 generates a function signal which logarithmically functionally reduces the illuminance of the room lamp. Finally, a power control circuit 110 supplies power which corresponds to the function signal. This constitution provides a vehicle room lamp which can provide a linear-appearing change in the brightness of the room lamp when the lamp is put out.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a room lamp extinguishing circuit for an automobile, and more particularly to a room lamp extinguishing control device for controlling extinguishment of the room lamp when the door is closed.

[0002]

2. Description of the Related Art Conventionally, a room lamp of an automobile or the like has been controlled to be turned off and turned on mainly in response to opening and closing of a door. According to such a conventional room lamp, when the door is opened to get on the vehicle, the room lamp is turned on, and it is possible to easily get on and off the vehicle even at night. However, as soon as you close the door, it goes out, so
There was an inconvenience that it was necessary to feel by hand when trying to start the engine or fasten the seat belt after closing the door.

In recent years, in order to solve this drawback, a room lamp control device has been developed, which is not turned off immediately when the door is closed, but is turned off gradually after a certain period of time, and is used in many automobiles. Has been.

An example of such a room lamp is described in, for example, Japanese Utility Model Laid-Open No. 61-158531. The "room lamp fade-out circuit" described here is a room lamp control device that can adjust the time from when the room lamp begins to go out until it goes out completely. Generally, gradually reducing the brightness is called "fade out" as described in this publication. Therefore, the term "fade out" is often used in the text.

This "room lamp fade-out circuit"
Is for controlling the room lamp with a voltage control type duty control circuit. And with the door switch,
It is composed of an integrating circuit charged by a door switch.

The operation of this circuit will be described. First,
When the door is opened, the door switch is turned on. Then, the capacitor in the integrating circuit is charged, and the voltage across the capacitor is applied to the voltage control type duty control circuit. Therefore, the duty ratio of the output signal of this control circuit becomes 100%, and all the room lamps are lit.

Next, when the door is closed, the door switch is turned off. However, since the electric charge charged in the capacitor is slowly discharged by the discharge resistance, the duty ratio of the output signal of the voltage control type duty control circuit also decreases slowly. At this time, since the output signal of this control circuit is saturated at the beginning,
Even if the door closes, it does not start to fall immediately. Therefore,
After the door is closed, during the time _t'1, the room lamp is kept full lighting state. Thereafter, the duty ratio of the power supplied to the room lamp is decreased, the room lamp darkens after elapsed time _t'2 is 0% duty next room lamp is turned off.

[0008] Then, the _t'1 by changing the gain of the amplifier in the voltage controlled duty control circuit, it is possible to vary the length of the _t'2.

[0009] Thus, the conventional room lamp control device, by changing the gain of the amplifier, the time from the door is closed until the light is time _t'1 and completely dark until begins to darken it is possible to adjust the _t'2. For example, if the gain is increased, t ′ ₁ , t ′ ₂
Becomes longer and the gain is made smaller, t ′ ₁ and t ′ ₂ can be made shorter.

In addition, Japanese Patent Application Laid-Open No. 61-116949 discloses a control device for controlling so that the light amount once drops to a certain level when the door is closed. Also,
Japanese Patent Application Laid-Open No. 61-104586 discloses a device which is not for a vehicle but which linearly adjusts the light amount of a lamp which is turned on by a commercial AC power supply and which uses phase angle control. Further, Japanese Patent Publication No. 1-48633 discloses a device provided with a means for generating a function of the power of 2 to 3 in order to obtain the brightness of an illumination lamp corresponding to the manipulated variable.

[0011]

Generally, it is widely known that the brightness of light sensed by human eyes is proportional to the logarithm of the brightness of the light. On the other hand, since the conventional vehicle room lamp control device is configured as described above, the electric power supplied to the room lamp is reduced based on the time constants of the resistor and the capacitor.

Therefore, according to the conventional vehicle room lamp control device, the brightness of the room lamp light does not linearly darken with time, which gives the occupant a strange feeling. In other words, the first half of the light does not get dark easily,
It suddenly went dark in the latter half of the light out.

The present invention has been made in view of the above problems, and an object thereof is to reduce the brightness of a room lamp logarithmically and linearly decrease the brightness when viewed with the naked eye. It is to obtain a room lamp extinction control device capable of controlling the room lamp.

[0014]

SUMMARY OF THE INVENTION In order to solve the above problems, the present invention is a vehicle room which is connected between a room lamp and a power source and which controls the electric power supplied from the power source to the room lamp. A lamp extinction control device, comprising control means for reducing the illuminance of the room lamp logarithmically with time when an external lamp extinction command is input, and the control means generates a function signal. A room lamp extinguishing control device for a vehicle, comprising: a function generating means for controlling the room lamp; and a power control means for supplying power corresponding to the function signal to the room lamp.

Therefore, according to this vehicle room lamp extinguishing control device, the brightness of the room lamp decreases linearly with the naked eye.

[0016]

The function signal generated by the function generating means in the present invention is set to a function that reduces the illuminance of the room lamp logarithmically. Therefore, the illuminance of the room lamp decreases logarithmically with time.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing the construction of an embodiment of a vehicle interior lamp extinguishing control device according to the present invention.
In the figure, a fade-out determination circuit 100 monitors the states of a plurality of door switches 102 and a fade-out designation signal 104. Then, based on these pieces of information, it is determined whether or not to perform the fade-out control. The fade-out designation signal 104 is, for example, a signal from a switch provided on the front panel, and is a signal for designating whether or not to perform fade-out control from the outside, for example, when the door is closed. If the fade-out determination circuit 100 determines to start the fade-out control, it outputs a fade-out start signal to the timer 106.

The timer 106 supplies time information to the subsequent function generating circuit 108. The timer 106 is reset to "0" by the fade-out start signal described above. That is, the time information output by the timer 106 indicates the elapsed time since the fade-out start signal was issued.

Since the brightness of the room lamp when viewed with the naked eye is controlled to decrease linearly, the function generating circuit 1
08 generates a function signal which is a basis for supplying electric power to the room lamp according to the elapsed time output from the timer 106.

The power control circuit 110 supplies power to the room lamp 112 according to the function signal. In this way, the room lamp extinction control device in this embodiment controls extinction of the room lamp 112.

The feature of this embodiment is that the function signal generated by the function generating circuit 108 according to the elapsed time from the start of the fade-out is the room lamp 112.
It is set as a function that makes the change in the illuminance of the logarithmic function. Therefore, the room lamp 112 is controlled so that the brightness when viewed with the naked eye decreases linearly.

As described above, the main feature of this embodiment is the function signal generated by the function generating circuit 108, and the function signal will be described below.

FIG. 2 shows an example of voltage-luminance characteristics of a vehicle interior lamp that has been generally used in the past. In FIG. 2, the horizontal axis represents the voltage (V) and the vertical axis represents the brightness (lux) of the room lamp. It is well known physiologically that the brightness of a room lamp when viewed with the naked eye is generally its logarithm. Therefore, in the graph shown in FIG. 3, the vertical axis represents the brightness of the room lamp on a logarithmic scale, and the horizontal axis represents time. Then, this graph shows a graph showing how the brightness changes with time.

Further, FIG. 3 also shows a graph showing the state of the voltage which changes with time. For example, in FIG.
The graph indicated by A is a graph when the voltage supplied to the room lamp is decreased at a constant speed, and is a simple straight line. The change in brightness when the voltage drops as shown in graph A
´ is shown. As can be seen from the shape of the graph shown in A ′, the speed of the room lamp darkening becomes extremely high near the end of the fade-out. Therefore, with the naked eye, it is observed that the brightness of the room lamp decreases slowly at the beginning and suddenly turns off completely in the latter half.

Therefore, by causing the function generating circuit 108 to generate a function such that the illuminance of the room lamp decreases logarithmically, the brightness of the room lamp becomes linearly dark (when viewed with the naked eye). It is possible to control. A graph showing the change in voltage in this case is shown by B in FIG.
Indicated by. As shown in this graph B,
For example, in the voltage range of 14 to 8 V, the rate of voltage drop is set to twice the rate of A. A graph representing the change in brightness of the room lamp in this case is shown by B '. As understood from the shape of the graph B ′, the change in brightness when viewed with the naked eye is almost linear.

Thus, the function generating circuit 108 generates a function signal such that the illuminance of the room lamp decreases logarithmically with time, and the power control circuit 110 causes the room lamp 112 to generate a voltage corresponding to the function signal. , The change in the brightness of the room lamp with the naked eye becomes almost linear as shown in the graph shown in B ′ of FIG.

As described above, according to this embodiment, the power control circuit 108 supplies the room lamp 112 with the voltage corresponding to the function signal generated by the function generation circuit 108 according to the elapsed time from the start of the fade-out. Therefore, the change in the brightness of the room lamp becomes linear (when viewed with the naked eye). Therefore, it is possible to make the change in the brightness of the room lamp constant.

[0029]

As described above, according to the present invention, when the turning off of the room lamp is started by closing the door, the illuminance of the room lamp decreases logarithmically with time. Therefore, the change in the illuminance of the room lamp is linear when viewed with the naked eye.

Therefore, it is possible to obtain the room lamp extinguishing control device which is less uncomfortable for the passengers.

[Brief description of drawings]

FIG. 1 is a configuration block diagram of a vehicle room lamp extinction control device that is an embodiment of the present invention.

FIG. 2 is a graph showing a relationship between a voltage applied to a vehicle room lamp and its brightness.

FIG. 3 is a graph showing changes in brightness of the room lamp when the voltage is changed linearly and when the voltage is changed corresponding to the function signal.

[Explanation of symbols]

 100 Fade-out determination circuit 106 Timer 108 Function generation circuit 110 Power control circuit 112 Room lamp

Claims (1)

[Claims] 1. A room lamp extinguishing control device for a vehicle, which is connected between a room lamp and a power source and controls electric power supplied from the power source to the room lamp, wherein a lamp extinguishing command from the outside is input. In this case, it has a control means for decreasing the illuminance of the room lamp logarithmically with time, the control means, a function generating means for generating a function signal,
A vehicle room lamp extinguishing control device comprising: a power control unit that supplies power corresponding to the function signal to the room lamp.