JPH025891B2 - - Google Patents

Description

[Detailed Description of the Invention] <Industrial Application Field> The present invention relates to a radiator cooling fan motor monitoring device for a front-wheel drive passenger car.

<Conventional technology and problems> Due to the way the engine is placed in front-wheel drive passenger cars, the radiator cooling fan (hereinafter referred to as fan) cannot be removed mechanically directly from the engine, so it is driven electrically by a motor. However, if there was a malfunction in the electric circuit of this motor, such as a disconnected connector, a blown fuse, or a short circuit, the fan would not operate and the engine would overheat.

In order to solve these problems, a check circuit disclosed in Japanese Utility Model Application Laid-Open No. 55-161019 has been known. However, in the technology disclosed in Utility Model Application Publication No. 55-161019, the alarm is generated based on the logic between the water temperature switch and the actual rotation of the fan motor, so to detect the rotation of the fan motor, a detection brush is generally installed separately on the fan motor. It is necessary to install a fan motor, and the fan motor has to be made into a special one, which makes it expensive.
It would also be difficult to improve existing fan motor circuits. Furthermore, in order to check the circuit of the fan motor, the fan motor is forcibly operated for a predetermined period of time when the engine is started, which normally is normal, so there is an increase in the noise caused by the fan, and the power supply voltage is not supplied to the fan motor. It seems that it is difficult to avoid a decrease in engine startability due to this, and power consumption due to the same reason.

The present invention has been made in response to the above-mentioned conventional technical situation, and can be retrofitted to an existing fan motor circuit without actually operating the fan motor or making the fan motor special. It is an object of the present invention to provide a fan motor monitoring device that is easy to modify (remodeled from the beginning), and that can detect and warn of an abnormality in the electric circuit of the fan motor at the time of starting the engine.

<Means for Solving the Problems> The configuration of the fan motor monitoring device according to the present invention that achieves the above object includes an ignition switch between the power supply and ground, and a water temperature switch that opens and closes depending on the water temperature of the radiator. In a fan motor control circuit which is connected in series with a fan motor operated by the water temperature switch, the water temperature switch is connected to the power supply side terminal of the water temperature switch, and the water temperature switch is controlled from the power supply by detecting the voltage of the power supply side terminal. a short-circuit/open detection circuit that detects and outputs whether the circuit up to the power supply side terminal is short-circuited or open, and is connected to the fan motor side terminal of the water temperature switch, and detects the voltage of the fan motor side terminal. There is an open detection circuit that detects whether the circuit from the fan motor side terminal of the water temperature switch to the ground is open and outputs an output, and a short circuit/open detection circuit that is activated when the ignition switch is on. and a warning means for warning when an output is received from at least one of the open detection circuit and the open detection circuit.

<Example> An example of a fan motor monitoring device according to the present invention will be described with reference to the drawings. FIG. 1 is a circuit diagram of an embodiment of a fan motor monitoring device according to the present invention. In Fig. 1, one end of the fan motor 1 is grounded, and the other end is connected to the water temperature switch 2, fuse 3, and IG switch (ignition switch).
4 and is connected to the power supply AM. The water temperature switch 2 is a movable piece 2a whose power supply side terminal X and fan motor side terminal Y are controlled by the water temperature of the radiator.
It is turned on and off by driving. A short-circuit/open detection circuit 5 is connected to the power supply side terminal An open detection circuit 6 is connected thereto. In addition, the respective outputs of the short circuit/open detection circuit 5 and the open detection circuit 6 are input to an OR circuit 7,
The output of the OR circuit is input to the set terminal of the flip-flop circuit 8. Flip Flop Q
The terminal is connected to the warning lamp 1 via the inverter 9.
0, and the other end of the warning lamp 10 is connected to a power source AM. The flip-flop 8, inverter 9, and warning lamp 10 of the OR circuit 7 constitute a warning means 14. Now, if IG switch 4 is ON and fuse 3 is conductive, there is power at the X terminal of water temperature switch 2.
AM voltage is applied. At this time, the output of the short circuit/open detector 5 is 0, and the Y terminal of the water temperature switch 2 is at ground potential via the fan motor 1 and connected to the Y terminal because the water temperature of the water temperature switch 2 is sufficiently low and open. The output of the open detector 6 is 0,
Therefore, the input to the OR circuit 7 is 0, the flip-flop circuit 8 is not set, and the warning lamp does not light up, confirming a normal state. However, if there is a disconnection or a blown fuse in the water temperature switch 2 and power supply AM circuit, no power supply voltage will be applied to the X terminal of water temperature switch 2.
When the water temperature switch 2 is also open, the X terminal is in an open state, and the short circuit/open detector 5 connected to the X terminal detects the open state and outputs 1.
On the other hand, assuming that the grounding state of the Y terminal does not change, the output of the open detector 6 of the Y terminal is 0, and the OR circuit 7
The output of is 1, so the flip-flop circuit 8 is set and outputs 1 to the Q terminal, and the output of the inverter 9 is 0. Therefore, the power supply voltage is applied to the warning lamp 10 and it lights up, and the fan motor circuit is connected to the driver. Informs you of an abnormality. Next, if the X terminal is short-circuited for some reason such as fuse 3 blowing out, the short-circuit/open detector 5 connected to the X terminal detects the short-circuit of the X terminal and outputs 1. On the other hand, if there is no abnormality at the Y terminal, the open detector 6 of the Y terminal outputs 0. Therefore, the OR circuit 7 outputs 1, sets the flip-flop circuit 8, and turns on the warning lamp 1.
Lights up 0. This makes the driver aware of an abnormality in the fan motor circuit. Next, even if the X terminal is normal, if there is a disconnection accident such as a poor contact between the Y terminal and the fan motor 1 circuit, the open detector 6 detects that the Y terminal is open and outputs 1. Therefore, the output of the OR circuit 7 becomes 1, the flip-flop circuit 8 is set, the warning lamp 10 lights up,
Informs that there is an abnormality in the fan motor circuit.
In the circuit shown in Figure 1, the outputs of the detectors at the X and Y terminals are ORed and input to the flip-flop circuit 8, so once an abnormal signal is input, it is self-held in the flip-flop circuit and a warning is issued. It has a fail-safe function as the lamp continues to warn of abnormalities. Note that the self-holding of the flip-flop is cleared by the OFF signal of the IG switch 4 sent to the reset terminal.

Incidentally, an example of the circuit of the short circuit/open detector 5 connected to the X terminal is shown in FIG. In Figure 2, R ₁ , R ₂
is a resistor forming a voltage divider, 11 is an inverter, 1
1a is an output terminal of the inverter. Further, when the X terminal is open, the input of the inverter 11 is 0, and therefore 1 is outputted to the output terminal 11a. Or if the X terminal is shorted, the input of inverter 11 is 0.
Therefore, 1 is output to the output terminal 11a. Next, when a power supply voltage is applied to the X terminal, a predetermined voltage 1 is applied to the inverter 11, and 0 is output to the inverter output terminal 11a. Therefore, the circuit shown in FIG. 2 can detect the two states of short circuit and open circuit of the X terminal.

FIG. 3 shows an example of the open detector 6 connected to the Y terminal. In FIG. 3, R ₃ , R ₄ , and R ₅ are resistors forming a voltage divider that provides predetermined voltages to the comparators 12 and 13. Further, 12 is a comparator which inputs a reference voltage of 3.5V and a voltage in the range of 0 to 5V to one terminal. 13 is a comparator to which a reference voltage of 1.5V and a voltage in the range of 0 to 5V are input to the + terminal. Now, if the Y terminal is at ground potential via the fan motor 1, the Y terminal is at O potential, and the potential at the distribution point of the voltage divider, that is, the input terminal of the comparator, is kept below 1.5V.
The outputs of comparators 12 and 13 are 0. Then, when water temperature switch 2 is activated and the Y terminal rises to the power supply voltage, the distribution point of the voltage divider becomes 5V, which is greater than the reference voltage of 3.5V, so the output of comparators 12 and 13 is 0. Output is 0, location is Y
If the terminal is open due to an abnormality in the fan motor circuit, the input voltage of comparators 12 and 13 will be 2.5V.
Since comparators 12 and 13 are set to
The output voltage becomes 1, and the open state of the Y terminal can be detected separately from the other two grounded and charged states.

<Effects of the Invention> According to the fan motor monitoring device according to the present invention,
It is possible to detect an abnormality in the circuit of the fan motor after the IG switch is turned on and before the water temperature switch is activated, that is, before the fan motor actually operates when the engine is started, and to warn the driver of the abnormality in the radiator fan motor circuit. Because you can
It is now possible to prevent overheating accidents caused by fan motor circuit abnormalities in FF passenger cars. In addition, since the actual operation of the fan motor is not required to detect abnormalities in the circuit, there is no noise caused by the fan.
There is no deterioration in engine startability, and there is no wasted power consumption. Furthermore, since it is determined whether or not there is an abnormality based on the voltage detection of the power supply side terminal of the water temperature switch and the fan motor side terminal, there is no need for a special fan motor, and the monitoring device of the present invention can be applied to an existing fan motor circuit. Can be easily attached.

[Brief explanation of drawings]

FIG. 1 is a circuit configuration diagram of an embodiment of the fan motor monitoring device according to the present invention, FIG. 2 is a circuit diagram of an example of the short circuit/open detector shown in FIG. 1, and FIG. It is a circuit block diagram of an example of the open detector shown inside. In the drawing, 1 is a fan motor, 2 is a water temperature switch, 3 is a fuse, 4 is an IG switch, 5 is a short circuit/open detector, 6 is an open detector, 7 is an OR circuit, 8 is a flip-flop circuit, 9 is an inverter, 10 is a warning lamp, 11 is an inverter, 12 and 13 are comparators, and 14 is a warning means.

Claims (1)

[Scope of Claims] 1. A fan motor in which an ignition switch, a water temperature switch that opens and closes depending on the water temperature of a radiator, and a fan motor operated by the water temperature switch are connected in series between a power source and ground. The control circuit is connected to the power supply terminal of the water temperature switch, and by detecting the voltage of the power supply terminal, detects whether the circuit from the power supply to the power supply terminal of the water temperature switch is short-circuited or open, and outputs the result. A short circuit/open detection circuit is connected to the fan motor side terminal of the water temperature switch, and by detecting the voltage of the fan motor side terminal, it is possible to detect whether the circuit from the fan motor side terminal of the water temperature switch to ground is in an open state. an open detection circuit that detects and outputs an open circuit; and an open detection circuit that is activated when the ignition switch is in an on state, and generates a warning when an output is received from at least one of the short circuit/open detection circuit and the open detection circuit. What is claimed is: 1. A fan motor monitoring device comprising a warning means for warning.