JPH0999778A - Lamp failure detecting device of automobile - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lamp failure detecting device of an automobile which can detect not only disconnection of lamps but also cutting of a power source line and a fuse. SOLUTION: When respective lamps 11 are not disconnected, a difference between reference voltage V2 and voltage V1 is 0, and output of an operation amplifier 15 becomes 0. When the voltage V increases since at least one of the respective lamps 11 is disconnected, output of the operation amplifier 15 is put on a high level. In this case, a switching transistor 16 is turned on, and an electric current flows to the switching transistor 16 from an ignition key switch 17, and a warning lamp 19 is lighted. When a fuse 13 is fused since an overcurrent flows to a line 21, a cutting detecting transistor 2 is turned off. In this case, since the output side of the cutting detecting transistor 2 is opened, the input side of the switching transistor 16 is put on a high level, and this switching transistor 16 is turned on, and this warning lamp 19 is lighted.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lamp failure detecting device for detecting a failure of a lamp system of an automobile.

[0002]

2. Description of the Related Art A lamp failure detecting device of this type is for detecting a disconnection of a lamp of an automobile, and when this lamp is disconnected, this is displayed or an alarm sound is emitted.

FIG. 2 shows an example of a conventional lamp failure detection device. In the figure, the two lamps 11 are connected in parallel, and when the lamp switch 12 is turned on,
A current flows through a route of fuse 13 → lamp switch 12 → resistor 14 → each lamp 11, and these lamps 11 are turned on.

On the other hand, a voltage V ₁ corresponding to the terminal voltage of each lamp 11 is applied to the non-inverting input terminal of the operational amplifier 15, and a predetermined reference voltage V ₁ is applied to the inverting input terminal of the operational amplifier 15. ₂ is being applied.

The reference voltage V ₂ is set equal to the voltage V ₁ when the lamps 11 are not broken. Therefore, if each lamp 11 is not broken, the difference between the reference voltage V ₂ and the voltage V ₁ is 0, and the output of the operational amplifier 15 is 0.

When at least one of the lamps 11 is disconnected and the voltage V ₁ rises, the output of the operational amplifier 15 becomes high level. In this case, since the input side of the switching transistor 16 becomes high level, the switching transistor 16 is turned on.

When the switching transistor 16 is turned on, a current flows through a route of ignition key switch 17 → fuse 18 → warning lamp 19 → resistor 20 → switching transistor 16 to turn on the warning lamp 19.

That is, when at least one of the lamps 11 is burnt out, the warning lamp 19 is lit up, thereby notifying the lamp burnout.

The low potential side of the warning lamp 19 is connected to an alternator circuit (not shown).
In this alternator circuit, the low potential side of the warning lamp 19 is grounded and the warning lamp 19 is lit while the ignition key switch 17 is on and the engine of the automobile is not operating. And
When the engine of the automobile operates, the low potential side of the warning lamp 19 is opened and the warning lamp 19 is turned off. As a result, it becomes possible to detect the failure of the warning lamp 19.

[0010]

However, in the above-described conventional lamp failure detecting device, the lamp switch 1 is connected to the power source.
Even if the power line 21 up to 2 and the fuse 13 are cut,
This could not be detected. Therefore, even if the fuse 13 is blown, it cannot be detected, and the warning lamp 19 remains off.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a lighting failure detecting device for an automobile, which detects not only the disconnection of the lamp but also the disconnection of a power supply line for supplying electric power to the lamp and a fuse.

[0012]

In order to solve the above-mentioned problems, the present invention relates to a comparing means for comparing the voltage of the input terminal of a lamp of an automobile with a predetermined reference voltage, and an output according to the comparing means. Switching element that turns on and off by
In a lighting failure detection device for a vehicle, comprising a lighting failure notification means that is activated and stopped by turning on / off the switching element, a power supply side of a switch mechanism that is set in a power supply line to supply power to the lamp and performs an on / off operation. A disconnection detecting means for detecting disconnection of the power supply line by comparing the potential with the ground potential is further provided, and the switching element is turned on / off according to the output of the disconnection detecting means.

Here, the comparing means compares the voltage at the input terminal of the lamp of the automobile with the reference voltage, and detects the disconnection of the lamp based on the fluctuation of the voltage at the input terminal of the lamp. In addition, the disconnection detecting means detects disconnection of the power supply line that supplies power to the lamp. The switching element is turned on and off according to the outputs of the comparison means and the disconnection detection means, and the lamp failure notification means is operated and stopped. Therefore, not only the disconnection of the lamp but also the disconnection of the power supply line for supplying electric power to the lamp, the lamp failure notification means is activated to notify the failure.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the accompanying drawings.

FIG. 1 shows one embodiment in which the lighting failure detection device of the present invention is implemented. In the figure,
The parts that perform the same actions as those of the conventional device in FIG. 2 are given the same reference numerals to simplify the description.

The apparatus of this embodiment is obtained by adding a disconnection detection circuit 1 to the conventional apparatus shown in FIG. This disconnection detection circuit 1
Is composed of a disconnection detection transistor 2 and resistors 3 and 4, and the input side of this disconnection detection transistor 2 is connected to a power supply line 21. The collector terminal of the disconnection detection transistor 2 is connected to the high potential side of the warning lamp 19 via the resistor 4, and the collector terminal is connected to the input side of the switching transistor 16.

Therefore, in this device, the disconnection detection transistor 2, the resistors 3 and 4, and some lines are added to the conventional device of FIG.

Now, in this device, each lamp 11
The disconnection of the line 21 can be detected in the same manner as in the device of FIG. 2, but the disconnection of the line 21 can be detected in the state where the ignition key switch 17 is turned on.

First, in a normal state, a current flows through the path of the fuse 13 → the resistor 3, a voltage is applied to the input side of the disconnection detection transistor 2, and the disconnection detection transistor 2 is turned on. In this case, since the output side of the disconnection detecting transistor 2 is short-circuited, no voltage is applied from the collector terminal of the disconnection detecting transistor 2 to the input side of the switching transistor 16.

Next, it is assumed that the fuse 13 is blown due to an overcurrent flowing through the line 21 for some reason. In this state, since no voltage is applied to the input side of the disconnection detecting transistor 2, the disconnection detecting transistor 2 is turned off. In this case, since the output side of the disconnection detection transistor 2 is opened, a current flows through a path of the resistor 4 → the collector terminal of the disconnection detection transistor 2 → the input side of the switching transistor 16 and the input side of the switching transistor 16 is high. The switching transistor 16 is turned on and the switching transistor 16 is turned on. As a result, an electric current flows through the warning lamp 19, and the warning lamp 19 lights up.

Therefore, in the device of this embodiment, the warning lamp 19 lights up in response to not only the disconnection of each lamp 11 but also the disconnection of the line 21 to notify the failure.

The present invention is not limited to this embodiment and can be modified appropriately. For example, another type of switching element may be applied instead of the transistor.

[0023]

As described above, according to the lamp failure detecting apparatus of the present invention, disconnection detecting means for detecting disconnection of the power supply line and some lines are added to the conventional apparatus. However, not only the disconnection of the lamp, but also the disconnection of the power line and the fuse that supplies power to the lamp,
These are reported as failures.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment in which a lamp failure detection device of the present invention is implemented.

FIG. 2 is a circuit diagram showing a conventional lamp failure detection device.

[Explanation of symbols]

 1 Disconnection Detection Circuit 2 Disconnection Detection Transistor 3, 4, 14, 20 Resistance 11 Lamp 12 Lamp Switch 13, 18 Fuse 15 Operational Amplifier 16 Switching Transistor 17 Ignition Key Switch 19 Warning Lamp 21 Power Line

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Fukuma 1-7-10 Kikuzumi, Minami-ku, Nagoya-shi, Aichi Prefecture Harness Research Institute, Inc.

Claims (1)

[Claims] 1. Comparing means for comparing a voltage of an input terminal of a lamp of an automobile with a predetermined reference voltage, a switching element which is turned on / off according to an output of the comparing means, and activation / stopping by turning on / off the switching element. In a vehicle lamp failure detection device comprising a lamp failure notification means for performing, by comparing the power supply side potential of the switch mechanism which is set in the power supply line for supplying electric power to the lamp and performs the on / off operation, and the ground potential. A vehicle lamp failure detection device further comprising disconnection detection means for detecting disconnection of a power supply line, and turning on / off the switching element according to an output of the disconnection detection means.