KR102063514B1 - Control apparatus and method of cooling fan motor - Google Patents

Abstract

The present invention forms a separate control unit in the register unit, the control unit receives a high-speed or low-speed control signal from the EMS of the vehicle and monitors the current flowing in the motor during the high speed or low speed operation of the cooling fan motor to provide a current higher than the limit current If it flows, it determines that the motor is in a restraint state so that the relay that operates the cooling fan motor can be shut off, and it is determined whether the low speed control relay is broken during the low speed operation of the cooling fan motor. If the low speed control relay is connected due to a fault (short, etc.), the high speed control relay can be connected to allow the cooling fan motor to operate in the high speed operation mode to prevent the resistor from generating heat, resulting in a fire. Control station of cooling fan motor to prevent occurrence Tooth and method.

Description

Control apparatus and method of cooling fan motor

The present invention relates to a control device and a method of a cooling fan motor. More specifically, by monitoring the current flowing in the motor during the high speed or low speed operation of the cooling fan motor to determine that the motor is in a restrained state when the current flows above the threshold current reference value. It is possible to shut off the relay that operates the motor, and determine whether the low speed control relay is broken in the low speed operation mode of the cooling fan motor, and change the cooling fan motor to the high speed operation mode in the event of a failure to prevent the resistor from generating heat and causing a fire. It relates to a control device and a method of a cooling fan motor that can prevent.

In general, a vehicle is provided with cooling means for preventing overheating of the engine, and air conditioning means having an air conditioning function for the occupant space inside the vehicle. The cooling means and the air conditioning means comprises a radiator for cooling the engine and a condenser for cooling the air conditioner refrigerant, and a fan shroud is installed on one surface thereof so as to improve heat exchange efficiency of the radiator and the condenser.

The vehicle cooling fan includes a condenser fan that cools the refrigerant of the air conditioner and a radiator fan that cools the engine coolant, and each of the fans is driven by a corresponding fan motor. It will rotate at high speed.

The fan motor is controlled in two stages of low speed or high speed. In the high speed control, the voltage applied from the rear end of the main relay of the battery is directly applied to the motor 20 without passing through the internal resistance 10 of the resistor. In the low speed control, a low voltage is applied to the motor 20 through the internal resistance 10 of the resistor, and the fan rotates at a low speed.

In addition, the high speed control relay 41 and the low speed control relay 42 are connected to the rear end of the main relay of the battery, respectively, the relays 41 and 42 are connected to the EMS 50 of the vehicle, and the EMS is connected to the vehicle. By comprehensively judging the information, the high speed and low speed control relays are turned on / off.

At this time, since the resistor only adjusts the voltage for the high speed or low speed control of the motor by the internal resistance circuit (that is, the resistor itself has no motor restraint detection function), the motor burns out when the motor is restrained. Or a high probability of fire due to heat generation inside the resistor.

In the low speed operation mode of the cooling fan motor, the cooling fan motor rotates and stops repeatedly while the low speed control relay 42 is repeatedly connected and disconnected, and at this time, the low speed control relay 42 has a short circuit. If the low-speed control relay 42 is not blocked, a state in which current flows continuously through the internal resistance 10 of the resistor is maintained, and there is a danger that a fire may occur due to heat generation in the internal resistance 10 of the resistor.

As a related art, Korean Patent No. 10-0239324 discloses a cooling / condenser fan control device.

KR 10-0239324 B1 (2000.01.15)

The present invention has been made to solve the above problems, an object of the present invention is to form a separate control unit in the register unit, to receive a high speed or low speed control signal from the EMS of the vehicle in the control unit of the cooling fan motor It monitors the current flowing in the motor during high speed or low speed operation, and if the current exceeds the limiting current reference value, the motor is judged to be in a restrained state so that the relay to operate the motor can be shut off. It is to provide a control device and method for a cooling fan motor which can prevent the occurrence of a fire by preventing the heat generated by the cooling fan motor by changing the cooling fan motor to a high-speed operation mode in the event of a failure.

The control device of the cooling fan motor of the present invention for achieving the above object, the high speed control relay 110 is connected in parallel between the positive electrode side of the battery 300 and the cooling fan motor 400 and A relay unit 100 including a low speed control relay 120; And a resistor 210 connected between the low speed control relay 120 and the cooling fan motor 400, a shunt resistor 220 connected between the cathode side of the cooling fan motor 400 and the ground of the vehicle. It is connected to the resistor 220 to measure the current flowing in the cooling fan motor 400 and is connected to the EMS (500) of the vehicle receives the high and low speed operation signal of the cooling fan motor 400 and the high speed control relay ( 110 and the operation signal of the high speed control relay 110 and the low speed control relay 120 in accordance with the signal transmitted from the microcomputer 230, the microcomputer 230 for controlling the ON / OFF of the low speed control relay 120. The output of the high speed driver 241 and the low speed driver 242 and the low speed control relay 120 and the microcomputer 230 determine whether the low speed control relay 120 is broken in the microcomputer 230. Fault detection line A register unit 200 including a 260; Characterized in that comprises a.

In addition, the microcomputer 230 may determine whether the low speed control relay 120 is connected and disconnected through the failure detection line 260.

In the control method of the cooling fan motor of the present invention, the control signal of the cooling fan motor 400 transmitted from the EMS 500 is received by the microcomputer 230 to determine whether it is a high speed control or a low speed control signal (S10). ; Operating (S20) a high speed control relay (110) or a low speed control relay (120) connected according to a signal received from the microcomputer (230); And comparing the operating current of the cooling fan motor 400 with the high speed control restraint determination current reference value when the high speed control relay 110 is operated, and when the operating current of the cooling fan motor 400 is greater than or equal to the high speed control restraint determination current reference value. Stopping the cooling fan motor 400 by blocking the control relay 110 (SA30), and determining whether or not the low speed control relay 120 malfunctions when the low speed control relay 120 is operated to determine the low speed control relay 120. ) If the fault is the high speed control relay 110 is operated, if the low speed control relay 120 is normal to operate the low speed control relay 120 to operate the operating current of the cooling fan motor 400 and the low speed control constraint judgment current reference value When comparing the operating current of the cooling fan motor 400 is greater than or equal to the low speed control restraint determination current reference value, the low speed control relay 120 is blocked to set the cooling fan motor 400. Restraint detection and fault determination step (S30) including a step SB30; Characterized in that comprises a.

In addition, when the low speed control relay 120 malfunctions and the signal received from the microcomputer 230 is a low speed control signal when the low speed control relay 120 is operated in step S30, the high speed control relay 110 is used. Operate to perform step SA30.

In the control apparatus and method of the cooling fan motor of the present invention, a separate control unit is formed in the register unit itself to control the high speed and low speed control relay in the control unit and to monitor the current flowing in the motor to control the relay ON / OFF, Since the cooling fan motor can prevent the resistor from generating heat due to the failure of the low speed control relay in the low speed operation mode, there is an advantage of preventing the occurrence of fire.

1 is a block diagram showing the configuration of a high speed / low speed control relay and a resistor for controlling a conventional vehicle cooling fan motor.
Figure 2 is a block diagram showing a control device of the cooling fan motor of the present invention.
3 is a flowchart illustrating a control method of a cooling fan motor according to the present invention.

Hereinafter, a control apparatus and a method of a cooling fan motor of the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

2 is a configuration diagram showing a control device of a cooling fan motor of the present invention.

As shown, the control device 1000 of the cooling fan motor of the present invention is a high speed control relay 110 and a low speed control connected in parallel between the positive electrode side of the battery 300 and the cooling fan motor 400. A relay unit 100 including a relay 120; And a resistor 210 connected between the low speed control relay 120 and the cooling fan motor 400, a shunt resistor 220 connected between the cathode side of the cooling fan motor 400 and the ground of the vehicle. It is connected to the resistor 220 to measure the current flowing in the cooling fan motor 400 and is connected to the EMS (500) of the vehicle receives the high and low speed operation signal of the cooling fan motor 400 and the high speed control relay ( 110 and the operation signal of the high speed control relay 110 and the low speed control relay 120 in accordance with the signal transmitted from the microcomputer 230, the microcomputer 230 for controlling the ON / OFF of the low speed control relay 120. The output of the high speed driver 241 and the low speed driver 242 and the low speed control relay 120 and the microcomputer 230 determine whether the microcomputer 230 has a failure of the low speed control relay 120. Fault detection line A register unit 200 including a 260; It may be made, including.

First, the relay unit 100 includes a high speed control relay 110 and a low speed control relay 120, and the high speed control relay 110 and the low speed control relay 120 respectively have a positive side and a cooling fan of the battery 300. It is connected in parallel between the anode side of the motor 400.

The register unit 200 includes a resistor 210, a shunt resistor 220, a microcomputer 230, a high speed driver 241, and a low speed driver 242.

At this time, the resistor 210 is connected between the low-speed control relay 120 and the anode side of the cooling fan motor 400 as a resistor, and lowers the voltage and current supplied from the battery 300 to the cooling fan motor 400. Play a role. That is, when voltage and current are supplied to the cooling fan motor 400 through the high speed control relay 110, the motor 400 rotates at high speed, and the cooling fan motor 400 is connected to the cooling fan motor 400 through the low speed control relay 120. When voltage and current are supplied, relatively low voltage and current are supplied to the cooling fan motor 400 by the resistance of the resistor 210 to rotate at a low speed.

And the cooling fan motor 400 is grounded by the cathode side is connected to the chassis of the vehicle. At this time, the shunt resistor 220 is connected between the cathode side of the cooling fan motor 400 and the ground, and the shunt resistor 220 is connected to the microcomputer 230, and flows from the microcomputer 230 to the cooling fan motor 400. The operating current can be measured (monitored).

In addition, the microcomputer 230 is connected to the EMS (500, Engine Management System) receives the high and low speed operation signal of the cooling fan motor 400 from the EMS (500). In this case, the EMS 500 is an engine control system, and based on a signal input from various sensors for detecting an operating state of the engine, the EMS 500 can control an optimum fuel injection amount and an ignition timing by a microprocessor to achieve optimal driving performance. It refers to an integrated engine management system that may include an electric control unit (ECU).

The high speed driver 241 is connected between the microcomputer 230 and the high speed control relay 110, and the low speed driver 242 is connected between the microcomputer 230 and the low speed control relay 120. The high speed driver 241 or the low speed driver 242 is driven in accordance with the high speed or low speed operation signal transmitted from the high speed control signal. Thus, ON / OFF of the high speed control relay 110 and the low speed control relay 120 is controlled. Can be.

That is, the microcomputer 230 receives a signal from the EMS 500 which transmits a signal to comprehensively determine the information of the vehicle and controls the cooling fan motor 400 at a high speed or a low speed, and relays the high speed control according to the received signal. By operating the 110 or the low speed control relay 120, the operating current of the cooling fan motor 400, which is measured, is monitored in the microcomputer 230, and the high speed in the microcomputer 230 according to the operating current of the cooling fan motor 400. It is configured to select and operate the control relay 110 and the low speed control relay 120.

Here, the low speed control relay 120 and the microcomputer 230 are connected to the failure detection line 260, and configured to determine whether the low speed control relay 120 has failed in the microcomputer 230.

Thus, in the low speed operation mode of the cooling fan motor, the low speed control relay repeats the connection and disconnection while the cooling fan motor rotates and stops. At this time, the low speed control relay is broken due to short, etc. If the connection remains in place, the register may overheat and cause a fire. Therefore, in the low speed operation mode of the cooling fan motor, the low speed control relay 120 is determined to be out of order, and in case of failure, the high speed control relay is turned on to control the high speed control relay to the ON state, thereby reducing the current flowing through the resistor. Overheating can be prevented.

Accordingly, in the control device of the cooling fan motor of the present invention, a separate control unit is formed in the register unit itself so that the control unit controls the high speed and low speed control relays and monitors the current flowing through the motor to control the relays ON / OFF, Since the cooling fan motor can prevent the resistor from generating heat due to the failure of the low speed control relay in the low speed operation mode, there is an advantage of preventing the occurrence of fire.

In addition, the microcomputer 230 may be formed to determine whether the low speed control relay 120 is connected and disconnected through the failure detection line 260.

That is, since the low speed control relay 120 may be operated to be connected or interrupted, the failure detection line 260 may be formed to determine whether the opening and closing of the relay is normally operated in the microcomputer 230.

In addition, the microcomputer 230 is connected to the positive side of the battery 300, and a regulator 250 is installed between the microcomputer 230 and the battery 300, and supplied from the battery 300 through the regulator 250 The voltage and current to be controlled may be constantly adjusted to be supplied to the microcomputer 230. In addition, the shunt resistor 220, the microcomputer 230, the high-speed driver 241 and the low-speed driver 242 is formed of a single PCB (PCB) to form a control unit and the control unit is a conventional high speed / low speed control relay The cooling fan motor control device may be configured by connecting to the cooling fan motor 400 and the cooling fan motor 400.

3 is a flowchart illustrating a control method of a cooling fan motor according to the present invention.

As shown in the control method of the cooling fan motor of the present invention, the control signal of the cooling fan motor 400 transmitted from the EMS 500 in the microcomputer 230 to determine whether the high speed control or low speed control signal (S10); Operating (S20) a high speed control relay (110) or a low speed control relay (120) connected according to a signal received from the microcomputer (230); And comparing the operating current of the cooling fan motor 400 with the high speed control restraint determination current reference value when the high speed control relay 110 is operated, and when the operating current of the cooling fan motor 400 is greater than or equal to the high speed control restraint determination current reference value. Stopping the cooling fan motor 400 by blocking the control relay 110 (SA30), and determining whether or not the low speed control relay 120 malfunctions when the low speed control relay 120 is operated to determine the low speed control relay 120. ) If the fault is the high speed control relay 110 is operated, if the low speed control relay 120 is normal to operate the low speed control relay 120 to operate the operating current of the cooling fan motor 400 and the low speed control constraint judgment current reference value When comparing the operating current of the cooling fan motor 400 is greater than or equal to the low speed control restraint determination current reference value, the low speed control relay 120 is blocked to set the cooling fan motor 400. Restraint detection and fault determination step (S30) including a step SB30; It may be made, including.

First, in the cooling fan motor control method of the present invention, when the EMS 500 determines the vehicle information comprehensively and sends a signal to the microcomputer 230 to rotate the cooling fan motor 400 at a high speed or a low speed, the microcomputer 230 ) Receives this signal and determines whether it is a high speed control signal or a low speed control signal. In addition, the microcomputer 230 drives the high speed driver 241 or the low speed driver 242 according to the received signal to control ON / OFF of the high speed control relay 110 or the low speed control relay 120.

At this time, the microcomputer 230 measures and monitors an operating current of the cooling fan motor 400 through the shunt resistor 220 connected to the cooling fan motor 400.

Here, when the high speed control signal is transmitted from the EMS 500 of the vehicle and the high speed control relay 110 is turned on by the microcomputer 230, the cooling fan motor 400 is turned off. In the high speed operation mode of the cooling fan motor, the microcomputer 230 compares the operating current of the cooling fan motor 400 with the high speed control restraint current reference value, so that the operating current of the cooling fan motor 400 is high speed. When the control restraint determination current is greater than or equal to the reference value, the high speed control relay 110 is blocked to stop the cooling fan motor 400. That is, when the operating current is higher than or equal to the high speed control restraint determination current reference value during the high speed operation of the cooling fan motor 400, the cooling fan motor 400 is determined to be in a restrained state and the high speed control relay 110 is turned off. (Step SA30)

When the low speed control signal is transmitted from the EMS 500 of the vehicle and the low speed control relay 120 is turned on by the microcomputer 230, the cooling fan motor 400 is turned on at a low speed. In the low speed operation mode of the cooling fan motor, the microcomputer 230 determines whether the low speed control relay 120 has failed. If the low speed control relay 120 is broken, the high speed control relay 110 is operated and the low speed control is performed. If the relay 120 is normal, the low speed control relay 120 is operated, and then the operating current of the cooling fan motor 400 is compared with the low speed control restraint current reference value, so that the operating current of the cooling fan motor 400 is limited to the low speed control. When the determination current is greater than or equal to the reference value, the low speed control relay 120 is blocked to stop the cooling fan motor 400. That is, when the low speed control relay 110 is broken in the low speed operation mode of the cooling fan motor, the low speed control relay 110 switches to the high speed operation mode. This is to start or stop the fan motor.

In this case, when the low speed control relay 120 is operated in the step S30 (when the low speed operation mode), the low speed control relay 120 is broken and the signal received from the microcomputer 230 is the low speed control signal. The control relay 110 may be operated to perform step SA30.

This means that even in the high speed operation mode, when the low speed control relay 110 is connected due to a failure, the microcomputer 230 recognizes the low speed operation mode and performs step SB30 so that the operating current and the limiting current reference value of the cooling fan motor are performed. Since the low speed control relay 110 is broken and at the same time a low speed control signal is received from the microcomputer 230, the low speed control relay 110 switches to the high speed operation mode to perform the SA30 step.

As described above, the control method of the cooling fan motor of the present invention can control the cooling fan motor in the high speed and the low speed operation mode by accurately determining whether to restrain each other, and also, the failure of the low speed control relay in the low speed operation mode of the cooling fan motor. It can be operated by switching to high speed operation mode in order to prevent overheating of the register to prevent fire.

The present invention is not limited to the above-described embodiments, and the scope of application of the present invention is not limited to those of ordinary skill in the art to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Of course, various modifications can be made.

1000: controller of cooling fan motor
100: relay unit
110: high speed control relay 120: low speed control relay
200: register
210: resistor 220: shunt resistor
230: Micom
241: high speed driver 242: low speed driver
250: regulator 260: fault detection line
300: battery
400: cooling fan motor
500: EMS (Engine Management System)

Claims (4)

A relay unit 100 including a high speed control relay 110 and a low speed control relay 120 connected in parallel between an anode side of the battery 300 and an anode side of the cooling fan motor 400; And
A resistor 210 connected between the low speed control relay 120 and the cooling fan motor 400, a shunt resistor 220 connected between the cathode side of the cooling fan motor 400 and the ground of the vehicle, and the shunt resistor. Connected to the 220 to measure the current flowing in the cooling fan motor 400 and connected to the EMS 500 of the vehicle receives the high and low speed operation signal of the cooling fan motor 400 and the high speed control relay 110 And the operation signals of the high speed control relay 110 and the low speed control relay 120 according to the signal transmitted from the microcomputer 230 and the microcomputer 230 for controlling ON / OFF of the low speed control relay 120. The high speed driver 241 and the low speed driver 242, and the low speed control relay 120 and the microcomputer 230 may be connected to determine whether the low speed control relay 120 has failed in the microcomputer 230. Fault detection line (260) Register unit 200 comprising a; It is made, including
The microcomputer 230 has a failure in the low speed control relay 120 in the low speed operation mode in which the cooling fan motor rotates and stops while the low speed control relay 120 repeats the connection and disconnection. Control unit of the cooling fan motor, characterized in that to control the high-speed control relay 110 to the ON state by switching the cooling fan motor to the high speed operation mode when the connection is not interrupted.
The method of claim 1,
The microcomputer 230 is a control device for a cooling fan motor, characterized in that it is possible to determine whether the low-speed control relay 120 is connected and disconnected through the failure detection line (260).
Receiving a control signal of the cooling fan motor 400 transmitted from the EMS 500 in the microcomputer 230 to determine whether the control signal is a high speed control or a low speed control signal (S10);
Operating (S20) the high speed control relay 110 or the low speed control relay 120 connected according to the signal received from the microcomputer 230; And
When the high speed control relay 110 operates in the high speed operation mode of the cooling fan motor 400, the operating current of the cooling fan motor 400 is compared with the high speed control restraint determination current reference value, so that the operating current of the cooling fan motor 400 is high speed. Stopping the high speed control relay 110 to stop the cooling fan motor 400 when it is greater than or equal to the control restriction determination current reference value (SA30), and the low speed control relay in the low speed operation mode of the cooling fan motor 400. In operation 120, when the low speed control relay 120 is not disconnected and the low speed control relay 120 is not blocked, the cooling fan motor is switched to the high speed operation mode to maintain the high speed control relay 110. Operate to reduce the current flowing in the resistor 210 connected between the low speed control relay 120 and the cooling fan motor, and the low speed control if the low speed control relay 120 is normal. The relay 120 operates to compare the operating current of the cooling fan motor 400 with the low speed control restraint current reference value, and when the operating current of the cooling fan motor 400 is greater than or equal to the low speed control restraint current reference value. Restraint detection and failure determination step (S30) comprising a step (SB30) to stop the cooling fan motor 400 by blocking the 120; Cooling fan motor control method comprising a.
The method of claim 3,
In the step S30, when the low speed control relay 120 operates during the operation of the low speed control relay 120 and the signal received from the microcomputer 230 operates the high speed control relay 110 by operating the low speed control signal. Cooling fan motor control method characterized in that to perform the step SA30.

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