JPH08254071A - Power window regulator circuit - Google Patents

Abstract

PURPOSE: To certainly stop the current feed to a window glass raising/lowering motor when the motor goes in a lock. CONSTITUTION: A power window regulator circuit 10 is equipped with a temp. sensing circuit 20 to sense the temp. of a shunt resistance SR, and the circuit 20 is furnished with a thermistor TC. The thermistor TC constitutes one of the gauge resistances of a resistance bridge circuit 30, and the output of a comparator 32 is inverted when the resistance value of the thermistor varies. A current control circuit 40 is connected to the output terminal 32C of the comparator 32, and at inversion of the output terminal 32C, transistors Tr2 , Tr3 are turned on while a transistor Tr4 is turned off so that current feed to the coil 16A of a relay 16 is stopped while its switch 16B is turned over to the motor-off side.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power window regulator circuit, and more particularly to a power window regulator circuit to which a shunt resistor for detecting a current value is connected.

[0002]

2. Description of the Related Art Conventionally, in a power window regulator of an automobile, a power window regulator circuit has been used which is designed so that the window is stopped or reverses and descends when a large load is applied while the window is rising. An example of the circuit is shown in FIG. Is shown in.

As shown in FIG. 4, in this power window regulator circuit, a window glass lifting motor 70 is used.
A shunt resistor SR is connected between the shunt resistor SR and the ground, and when a large load is applied when the window rises or falls and the window glass lifting motor 70 locks, the current flowing through the shunt resistor SR increases. Further, the auto circuit 72 detects the increase in the current and turns off the transistor T _r1 to stop the energization of the coil 74A of the relay 74, and the switch 74B of the relay 74.
Is switched to the motor-off side, and the window glass lifting motor 70 is stopped.

However, in this power window regulator circuit, when the window glass lifting motor 70 is locked, the current increase is not detected by the automatic circuit 72, or the manual switch switch 76 is turned on by the occupant. However, there is a risk that current will continue to be supplied to the window glass lifting motor 70.

[0005]

SUMMARY OF THE INVENTION In consideration of the above facts, the present invention takes into consideration the above facts when the window glass lifting motor is locked,
An object of the present invention is to obtain a power window regulator circuit that can surely stop the current supply to the window glass lifting motor.

[0006]

According to a first aspect of the present invention, there is provided a power window regulator circuit in which a shunt resistor for detecting a current value is connected to a window glass lift motor, the shunt resistor or the shunt resistor. It is characterized by having a temperature detection circuit section for detecting a temperature in the vicinity and a current control circuit section for cutting an input current of the window glass lifting motor based on a detection value of the temperature detection circuit section.

According to a second aspect of the present invention, there is provided a power window regulator circuit in which a shunt resistor for detecting a current value is connected to a window glass lifting motor, and the temperature is formed on the same current path as the shunt resistor. A detector,
It has a temperature detection circuit section for detecting the temperature of the temperature detection section, and a current control circuit section for cutting the input current of the window glass lifting motor based on the detection value of the temperature detection circuit section. .

[0008]

According to the first aspect of the present invention, when the window glass lifting motor is locked, the current flowing through the shunt resistance increases, and the temperature of the shunt resistance or the vicinity of the shunt resistance rises. This temperature rise is detected by the temperature detection circuit unit, and the current control circuit unit cuts off the input current of the window glass lifting motor based on the detection value of the temperature detection circuit unit.

According to the second aspect of the present invention, when the window glass lift motor is locked, the current flowing on the same current path as the shunt resistance increases, and the current is formed on the same current path as the shunt resistance. The temperature of the temperature detector rises. This temperature rise is detected by the temperature detection circuit unit,
The current control circuit section cuts off the input current of the window glass lifting motor based on the detected value of the temperature detection circuit section.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the power window regulator circuit of the present invention will be described with reference to FIGS.

As shown in FIG. 1, a shunt resistor SR is connected between the window glass lifting motor 12 and the ground in the power window regulator circuit 10 of this embodiment, and a large load is applied when the window is raised. When the window glass lifting motor 12 locks, the current I ₁ flowing through the shunt resistor SR increases. Further, the auto circuit 14 detects the increase of the current I ₁ and turns off the transistor T _r1 , thereby stopping the energization of the coil 16A of the relay 16 and switching the switch 16B of the relay 16 from the motor-on side 16C to the motor-off side 16D. It is designed to switch to. Note that the transistor T _r1
A manual switch switch 17 is connected in parallel to the collector C and the emitter E of.

Further, the power window regulator circuit 1
At 0, a temperature detection circuit unit 20 that detects the temperature of the shunt resistor SR is provided. This temperature detection circuit section 20
Has a thermistor TC.

As shown in FIG. 2, the shunt resistor 24 mounted on the substrate 22 has a leg portion 24 on which a thermistor mounting portion 26 is formed so as to project therefrom.
A thermistor 28 is attached to the. Therefore, when the temperature of the shunt resistor 24 rises, the resistance value of the thermistor 28 changes. In this embodiment, the thermistor 28 has an NTC.
Is used, and the resistance value is designed to decrease as the temperature rises. When PTC is used for the thermistor 28, the resistance value increases as the temperature rises.

As shown in FIG. 1, the thermistor TC is a resistor
Configure one of the gauge resistance of the anti-bridge circuit 30
Resistor bridge circuit to which this thermistor TC is connected
One output 30A of 30 (voltage value V_S1) Is the comparae
Is connected to one input terminal 32A of the switch 32. Well
In addition, the other output 30B of the resistance bridge circuit 30 (voltage value
V _S2) Is connected to the other input terminal 32B of the comparator 32.
It is connected.

Therefore, when the NTC is used for the thermistor 28, when the resistance value of the thermistor 28 decreases and the voltage value V _S1 becomes smaller than the voltage value V _S2 , the output of the comparator 32 is inverted. There is. On the other hand, when the PTC is used for the thermistor 28, when the resistance value of the thermistor 28 rises and the voltage value V _S1 becomes larger than the voltage value V _S2 , the output of the comparator 32 is inverted.

At the output terminal 32C of the comparator 32,
The current control circuit unit 40 is connected. The output terminal 32C of the comparator 32 is connected to the base B of the transistor T _r2 of the current control circuit unit 40 via the resistor R1. The base B of the transistor T _r3 is connected to the collector C of the transistor T _r2 via the resistor R2. Therefore, when the output terminal 32C of the comparator 32 is inverted, the transistor T _r2 is turned on and the transistor T _r3 is turned on.

The collector C of the Totanjisuta T _r3 is connected to the base B of Totanjisuta T _r4, the emitter E of Totanjisuta T _r4 is connected to the power source V _CC. Also,
The collector C of the transistor T _r4 is connected to the coil 16A of the relay 16. Therefore, when the transistor T _r3 is turned on, the transistor T _r4 is turned off. As a result, the energization of the coil 16A of the relay 16 is stopped and the switch 16B of the relay 16 is switched to the motor off side. In addition, T
_A resistor R3 is connected in parallel to the base B and the emitter E of _r4 , and the base B of the transistor T _r4 and the coil 16A are connected.
A resistor R4 is connected in parallel to the terminal of the transistor T _r1 side.

Next, the operation of this embodiment will be described. In the power window regulator circuit 10 of this embodiment, when a large load is applied when the window is raised or lowered and the window glass lifting motor 12 is locked, the shunt resistor 2 is used.
The current flowing through 4 increases and the temperature of the shunt resistor SR rises. This temperature rise is detected by the temperature detection circuit section 20.
That is, the temperature of the thermistor 28 attached to the thermistor attaching portion 26 of the shunt resistor 24 rises, and the thermistor 2
The resistance value of 8 changes, and the output of the comparator 32 is inverted.

When the output of the comparator 32 is inverted, the transistors T _r2 and T _r3 of the current control circuit unit 40 are turned on, the transistor T _r4 is turned off, and the coil 16A of the relay 16 is turned on.
Energization stops. As a result, the switch 16B of the relay 16 is switched to the motor off side, and the input current of the window glass lifting motor 12 is cut.

Therefore, in the power window regulator circuit 10 of this embodiment, the window glass lifting motor 12
Even if the vehicle is locked, the current supply to the window glass lifting motor 12 is surely stopped even when the current increase is not detected by the auto circuit 14 or the manual switch 17 is turned on by the occupant. be able to.

In the present embodiment, as shown in FIG. 2, the shunt resistor 24 mounted on the substrate 22 is formed with the thermistor mounting portion 26, and the thermistor mounting portion 26 is mounted with the thermistor 28. Alternatively, the thermistor 28 may be arranged near the shunt resistor 24, and the resistance value of the thermistor 28 may be changed by the temperature change near the thermistor 28. Also, as shown in FIG.
In the pattern 42 on the same current path as the shunt resistor 24,
A T-shaped portion 44 having a narrow width as a temperature detecting portion is formed, the thermistor 28 is attached to a leg portion 44A of the T-shaped portion 44, and the resistance value of the thermistor 28 changes according to the temperature change of the leg portion 44A. Also good.

[0022]

According to the power window regulator circuit of the present invention as set forth in claim 1, a temperature detection circuit section for detecting a shunt resistance or a temperature in the vicinity of the shunt resistance, and a window glass based on a detection value of the temperature detection circuit section. Since the current control circuit unit that cuts the input current of the lifting motor is provided, it is possible to reliably stop the current supply to the window glass lifting motor when the window glass lifting motor is locked. Have an effect.

In the power window regulator circuit of the present invention as defined in claim 2, a temperature detecting section formed on the same current path as the shunt resistor, a temperature detecting circuit section for detecting the temperature of the temperature detecting section, and The current control circuit that cuts the input current of the window glass lifting motor based on the value detected by the temperature detection circuit, and the configuration that has a current control circuit when the window glass lifting motor is locked. It has an excellent effect that the supply can be surely stopped.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing a power window regulator circuit according to an embodiment of the present invention.

FIG. 2 is a perspective view showing a shunt resistance of the power window regulator circuit according to the embodiment of the present invention.

FIG. 3 is a perspective view showing a shunt resistance of a power window regulator circuit according to another embodiment of the present invention.

FIG. 4 is a circuit diagram showing a conventional power window regulator circuit.

[Explanation of symbols]

 10 Power Window Regulator Circuit 12 Wind Glass Lifting Motor 14 Auto Circuit 17 Manual Switch Switch 20 Temperature Detection Circuit Section 24 Shunt 28 Thermistor 40 Current Control Circuit Section 42 Pattern 44 T-Shaped Section (Temperature Detection Section) 44A Leg SR Shunt Resistance TC Thermistor

Claims (2)

[Claims] 1. A power window regulator circuit in which a shunt resistor for detecting a current value is connected to a window glass lifting motor, the temperature detecting circuit portion detecting a temperature of the shunt resistor or a temperature near the shunt resistor; A power window regulator circuit, comprising: a current control circuit unit that cuts an input current of the window glass lifting motor based on a detection value of the detection circuit unit. 2. A power window regulator circuit in which a shunt resistor for detecting a current value is connected to a window glass lifting motor, the temperature detecting unit being formed on the same current path as the shunt resistor, and the temperature detecting unit. And a current control circuit section for cutting the input current of the window glass lifting motor based on a detection value of the temperature detection circuit section, and a power window regulator circuit. .