KR20110105583A - Cooling system of in wheel motor - Google Patents

Abstract

The present invention relates to an in-wheel motor cooling system using electricity as a power source. The in-wheel motor cooling system according to the present invention cools the in-wheel motor housing by using a refrigerant of a cooling system for a vehicle interior space when the in-wheel motor is heated. Characterized in that it comprises a motor cooling drive, and the technical purpose to improve the cooling performance of the in-wheel motor, further improve the performance of the in-wheel motor, and to extend the life.

Description

Cooling system of in wheel motor

The present invention relates to an in-wheel motor cooling system using electricity as a power source. The present invention relates to an in-wheel motor cooling system for efficiently cooling the motor heating according to the operation of the in-wheel motor under high load operating conditions, thereby ensuring smooth heat dissipation and cooling performance. It is about.

Generally, in-wheel motors are mounted inside the wheel rims to transfer power directly to the wheels, eliminating power transmission devices such as engines, transmissions and differential gears, thereby reducing the weight of the vehicle. In addition to being able to lower the energy loss rate of the power transmission process, it is widely used as a motor for electric vehicles and hybrid vehicles.

However, when a high speed driving or high output from the hill is required, cooling of the driven in-wheel motor is not performed smoothly, and there is a problem that the performance of the motor is degraded.

In particular, when continuous climbing or high-speed operation under extreme conditions such as high temperature outdoor and geothermal in summer, vehicle failure occurs due to overheating of the in-wheel motor, and further shortens the life of the in-wheel motor.

The present invention has been proposed to solve the above conventional problems,

An object of the in-wheel motor cooling system according to the present invention is to cool a heated in-wheel motor using a vehicle cooling device, thereby improving the cooling performance of the in-wheel motor, further improving the performance of the in-wheel motor, and extending the life.

Another object is to further include a motor cooling determination unit, to control whether the driving of the motor cooling drive unit and the drive mode setting.

Still another object is to set the motor drive mode and adjust the cooling method according to the in-wheel motor drive state.

Still another object is to further include a motor state detection unit, in real time to detect the state according to the in-wheel motor drive.

Another object is to configure a motor cooling drive unit that directly uses and regulates the refrigerant of the cooling system.

Another object is to further include a cooling hole, to facilitate providing the outside air of the vehicle to the motor heat exchanger.

Still another object is to further provide a low temperature air provided by the motor heat exchanger to the in-wheel motor housing further including a cooling duct.

In-wheel motor cooling system according to the invention is characterized in that it comprises a motor cooling drive for cooling the in-wheel motor housing, using the refrigerant of the cooling system for the vehicle interior space, when the in-wheel motor heating.

In addition, the in-wheel motor cooling system according to the present invention is connected to the motor cooling driving unit, characterized in that it further comprises a motor cooling determination unit for setting the motor cooling mode.

In addition, the in-wheel motor cooling system according to the present invention is connected to the motor cooling determination portion, characterized in that it further comprises a motor state detection unit for detecting the temperature and driving state of the in-wheel motor.

As described above, the in-wheel motor cooling system according to the present invention, by cooling the heated in-wheel motor using a vehicle cooling device, while improving the efficiency of the vehicle cooling and cooling system and at the same time improve the cooling performance of the in-wheel motor, Furthermore, there is an effect that can improve the performance of the in-wheel motor and extend the life.

In addition, by further including a motor cooling determination unit, there is an effect that can control whether or not the driving of the motor cooling drive unit and the drive mode setting.

In addition, by setting the motor drive mode, there is an effect that can adjust the cooling method according to the in-wheel motor drive state.

In addition, by further including a motor state detection unit, there is an effect that can be detected in real time according to the in-wheel motor drive.

In addition, there is an effect that can be configured for the motor cooling drive unit to directly use and control the refrigerant of the cooling system.

In addition, by further including a cooling hole, there is an effect of facilitating providing the outside air of the vehicle to the motor heat exchanger.

In addition, by further including a cooling duct, there is an effect that can provide the low-temperature air provided by the motor heat exchanger to the in-wheel motor housing intensively.

1 is a block diagram of an in-wheel motor cooling system according to the present invention.
Figure 2 is a first embodiment showing the structure of the motor cooling drive unit of the in-wheel motor cooling system according to the present invention.
3 is a flow chart of a cooling method using an in-wheel motor cooling system according to the present invention.
Figure 4 is a detailed flow diagram of the step S21 of the cooling method using the in-wheel motor cooling system according to the present invention.
5 is a refrigerant flow chart in the cooling mode of the in-wheel motor cooling system according to the present invention.
6 is a refrigerant flow chart in the cooling and cooling mode of the in-wheel motor cooling system according to the present invention.
7 is a refrigerant flow diagram in the cooling mode of the in-wheel motor cooling system according to the present invention.
Figure 8 is a second embodiment showing the structure of the motor cooling drive unit of the in-wheel motor cooling system according to the present invention.
9 is a second embodiment of the refrigerant flow chart in the cooling mode of the in-wheel motor cooling system according to the present invention.

Hereinafter, specific details for implementing the in-wheel motor cooling system according to the present invention will be described.

1 is a view showing the configuration of the in-wheel motor cooling system according to the present invention, including a motor state detection unit 10, the motor cooling determination unit 20 and the motor cooling drive unit (30).

The motor state detection unit 10 detects a state according to the driving of the in-wheel motor, and transmits the state to the motor cooling determination unit 20.

In the embodiment of the present invention, the motor state detecting unit 10 detects a vehicle speed, a driving time, a motor temperature, a motor heating time, etc. according to the motor driving.

The motor cooling determining unit 20 receives driving state information of the in-wheel motor from the motor state detecting unit 10, sets a motor cooling mode, and delivers the motor cooling mode to the motor cooling driving unit 30.

The motor cooling mode according to the present invention includes a cooling mode, a cooling and cooling parallel mode and a cooling mode.

The cooling mode refers to a mode in which only the cooling operation of the vehicle interior is performed in a standby state in which the driving state of the in-wheel motor does not reach a state requiring cooling.

The cooling and cooling parallel mode refers to a mode of simultaneously operating a cooling system for cooling a vehicle interior space and an in-wheel motor cooling system.

The cooling mode is a mode in which only the cooling system of the in-wheel motor is operated. The cooling mode does not need to operate cooling inside the vehicle, and refers to the case where the cooling of the in-wheel motor is urgent.

The motor cooling driving unit 30 controls the operation of the cooling apparatus in accordance with the motor cooling mode received from the motor cooling determination unit 20.

2 is a view showing a first embodiment of the motor cooling drive unit 30 according to the present invention, and includes a motor heat exchanger 33, a motor cooling fan 35, and a cooling valve 37.

The motor heat exchanger (33) is a cooling system composed of a compressor (1), a condenser (2), an expansion valve (3), and an evaporator (4) for a vehicle interior space, so that the evaporator (4) is used at the condenser (2). It is connected to the refrigerant moving path to connect, serves to provide low temperature air to the in-wheel motor housing.

The motor cooling fan 35 is provided at one side of the motor heat exchanger 33, and serves to forcibly blow low temperature air generated around the heat exchanger to the in-wheel motor housing.

The cooling valve 37 is positioned between the motor heat exchanger 33 and the coolant movement path, and controls the refrigerant transfer to the motor heat exchanger according to the motor cooling mode setting.

3 is a view showing the overall flow of the cooling method using the in-wheel motor cooling system according to the present invention, first, by using the motor state detection unit 10, performing the step of detecting the state of the in-wheel motor. (S10)

In the embodiment of the present invention, the state of the in-wheel motor in step S10 is performed by sensing the heating temperature.

Next, the step of determining the in-wheel motor cooling mode is performed using the motor cooling determination unit 20. (S20)

4 is a diagram illustrating a detailed flow of the step S20, and performs a step of determining whether the heating temperature of the in-wheel motor detected in the step S10 exceeds the reference value (S21).

If the temperature of the in-wheel motor detected in step S21 does not exceed the reference value, the step of setting the cooling mode to operate only the system for cooling the vehicle interior is performed.

5 is an embodiment of the step S23, it is possible to check the refrigerant movement direction in the cooling mode.

That is, when it is not necessary to cool the in-wheel motor, the cooling valve 37 connected to the motor heat exchanger 33 is blocked to prevent the movement of the refrigerant.

When the temperature of the in-wheel motor sensed in step S21 exceeds the reference value, a step of checking whether the reference value range is exceeded is performed.

In the step S25, if the temperature of the in-wheel motor does not belong to the over-range, performing the step of setting to the cooling and cooling parallel mode (S27).

6 is an embodiment of the step S27, it is possible to check the refrigerant movement direction in the cooling and cooling parallel mode.

That is, when the cooling system and the cooling system are operated in parallel, the cooling valve 37 is opened to provide the refrigerant to the motor heat exchanger 33 to cool the air around the motor heat exchanger 33, wherein the motor By operating the cooling fan 37, cold air is forcedly blown to the in-wheel motor housing. (S30)

In the step S25, when the temperature of the in-wheel motor is in the over-range, or when the indoor cooling of the vehicle is not operated, the step of setting to the cooling mode to operate only the cooling system of the in-wheel motor (S29).

7 is an embodiment of the step S29, it is possible to check the refrigerant movement direction in the cooling mode.

That is, in the cooling mode, the expansion valve 3 located at the inlet of the evaporator 4 is blocked to prevent the inner system from operating, and the refrigerant is used only for in-wheel motor cooling.

8 is a second embodiment of the in-wheel motor cooling system according to the present invention, which differs from the first embodiment by further comprising a cooling hole 39 and a cooling duct 38.

One side of the cooling hole 39 is opened to the front of the vehicle bumper, and the other side is connected to the motor heat exchanger 33 to serve to provide external air to the motor heat exchanger 33.

The inside of the cooling hole (39) is preferably formed in a honeycomb shape or a net shape to prevent foreign matter from entering the outside air from the bumper front of the vehicle, in the case of the motor heat exchanger (33), to minimize the flow resistance It is desirable to be designed as a structure that can be.

One side of the cooling duct 38 is connected to the motor heat exchanger 33, and the other side of the cooling duct 38 is connected to the in-wheel motor housing 40 to receive external air introduced through the cooling hole 39. 40) to provide a concentrated role.

9 is a view showing the flow of the refrigerant when the cooling mode in the second embodiment of the in-wheel motor cooling system according to the present invention, by blocking the expansion valve 3 formed at the inlet of the evaporator 4, the refrigerant Is used only for the in-wheel motor cooling system, and together with the inflow of outside air of the vehicle, the air movement according to the cooling drive of the in-wheel motor is more easily performed.

In particular, in a low speed and high load condition such as climbing operation, the amount of air flowing in from the outside is not large. Therefore, it is preferable to forcibly blow external air by using the cooling fan 6.

As described above, by applying the in-wheel motor cooling system according to the present invention by cooling the heated in-wheel motor using a vehicle cooling device, while improving the efficiency of the vehicle cooling and cooling system and at the same time improve the cooling performance of the in-wheel motor In addition, the performance of the in-wheel motor can be improved and the life can be extended.

Although the embodiments of the present invention have been described above, the technical idea of the present invention is not limited to the above embodiments, and may be implemented as various in-wheel motor cooling systems in a range that does not depart from the technical idea of the present invention.

1: compressor 2: condenser
3: expansion valve 4: evaporator
10: motor state detection unit 20: motor cooling determination unit
30: motor cooling drive unit 33: motor heat exchanger
35: motor cooling fan 37: cooling valve
38: cooling duct 39: cooling hole
40: in-wheel motor housing

Claims (7)

An in-wheel motor cooling system comprising a motor cooling driver for cooling the in-wheel motor housing by using a refrigerant of a cooling system for a vehicle interior space when heating the in-wheel motor. The method of claim 1,
An in-wheel motor cooling system is connected to the motor cooling driving unit, the motor cooling mode further comprising setting a motor cooling mode. The method of claim 2,
The motor cooling mode,
Cooling system for cooling the interior space of the vehicle and cooling and cooling parallel mode for simultaneously operating the in-wheel motor cooling system and
An in-wheel motor cooling system comprising a cooling mode for operating only the cooling system of the in-wheel motor. The method of claim 2,
An in-wheel motor cooling system is connected to the motor cooling determination unit, further comprising a motor state detection unit for detecting the temperature and driving state of the in-wheel motor. The method of claim 2,
The motor cooling drive unit,
A motor heat exchanger connected to a refrigerant moving path connecting the evaporator in the condenser of the cooling system for the indoor space of the vehicle to provide low temperature air to the in-wheel motor housing;
A motor cooling fan provided at one side of the motor heat exchanger to forcibly blow low temperature air generated around the heat exchanger to the in-wheel motor housing;
And a cooling valve positioned between the motor heat exchanger and the coolant movement path to control whether refrigerant is delivered to the motor heat exchanger according to the motor cooling mode setting. The method of claim 5,
The motor cooling drive unit,
The in-wheel motor cooling system, characterized in that the one side is further opened to the front of the vehicle bumper, the other side is connected to the motor heat exchanger, the cooling hole for providing the outside air to the motor heat exchanger. The method of claim 6,
The motor cooling drive unit,
One side is connected to the motor heat exchanger, the other side is connected to the in-wheel motor housing, the in-wheel motor cooling further comprises a cooling duct for intensively providing the in-air motor housing with the outside air introduced through the cooling hole system.

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