CN207274416U - Four-wheel drive electric automobile transmission system - Google Patents

Abstract

The utility model discloses a four-wheel drive electric vehicle transmission system, including a power battery, a first output end of which is connected to a control unit, and a second output end of which is connected to a DC/DC converter; the output end of the DC/DC converter is connected to an auxiliary battery, and the output end of the auxiliary battery is connected to the control unit through an ignition switch; the input end of the control unit is also respectively connected to a steering wheel angle sensor that provides the control unit with a steering wheel rotation direction and angle, an accelerator pedal position sensor that provides the control unit with a signal of whether the accelerator pedal is stepped on and the degree of stepping, a gear switch that provides the control unit with gear information, a brake switch that provides the control unit with a brake signal when braking, and a vehicle speed sensor that provides the control unit with a vehicle speed signal; the output end of the control unit is connected to a wheel hub motor and a rear drive motor. The utility model can realize a variety of drive forms such as rear drive and four-wheel drive to meet the needs of different road driving conditions. The utility model facilitates energy recovery and improves the economy of the car.

Description

A four-wheel drive electric vehicle transmission system

technical field

The utility model relates to a transmission system of a four-wheel drive electric vehicle.

Background technique

Electric vehicles have the advantages of energy saving, environmental protection, and good economy. Existing electric vehicles all have transmission components such as differentials, which make the vehicle transmission structure more complicated, increase the weight of the vehicle, and reduce the transmission efficiency. Existing electric vehicles cannot realize energy recovery and consume high energy consumption.

Utility model content

The purpose of the utility model is to provide a four-wheel drive electric vehicle transmission system aiming at the defects existing in the prior art.

In order to achieve the above object, the utility model adopts the following technical scheme: a transmission system of a four-wheel drive electric vehicle, including a power battery, the first output end of which is connected to the control unit, and the second output end thereof is connected to the DC/DC converter; The output end of the DC/DC converter is connected to the auxiliary storage battery, and the output end of the auxiliary storage battery is connected to the control unit through the ignition switch; Steering wheel angle sensor, accelerator pedal position sensor that provides signals to the control unit whether to step on the accelerator pedal and the degree of stepping, gear switch that provides gear information to the control unit, brake switch that provides brake signals to the control unit when braking , and the vehicle speed sensor that provides the vehicle speed signal to the control unit is connected; the output terminals of the control unit are respectively connected with the left front hub motor, the right front hub motor and the rear drive motor; The rear wheel is connected to the right rear wheel; wherein, the power battery is a high-voltage power supply, which is used to provide working power for the high-voltage components in the control unit, and at the same time feed back information on voltage, electricity, temperature and current to the control unit; The DC/DC converter DC/DC converter is used to convert the high-voltage direct current of the power battery into 12V direct current to charge the auxiliary battery; the auxiliary battery is a low-voltage power supply with a voltage value of 12V, which is used for the control The unit and each sensor provide working power.

Further, the left front hub motor, the right front hub motor and the rear drive motor are all permanent magnet brushless DC motors, and are independent of each other during operation; any one of the left front hub motor, the right front hub motor and the rear drive motor is in the drive mode , the control unit controls the rotation direction and speed of the in-wheel motor by controlling the phase sequence and frequency.

Further, the control unit can control any one of the left front hub motor, right front hub motor and rear drive motor to be in the power generation mode to convert part of the kinetic energy of the vehicle into electrical energy and store it in the power battery.

Further, the left front hub motor, the right front hub motor and the rear drive motor can feed back their respective rotor position and motor temperature technical parameters to the control unit, so that the control unit can control the corresponding motors and start them when the corresponding motors run abnormally. protected mode.

The beneficial effects of the utility model: 1) Various driving forms such as rear-wheel drive and four-wheel drive can be realized to meet the needs of different road driving conditions. (2) It is convenient to realize energy recovery and improve the economy of the automobile.

Description of drawings

Fig. 1 schematic diagram of the working principle of the utility model.

Detailed ways

As shown in Figure 1, it involves a four-wheel drive electric vehicle transmission system, including a power battery, its first output end is connected to the control unit, and its second output end is connected to the DC/DC converter; the DC/DC converter The output end of the auxiliary battery is connected to the auxiliary battery, and the output end of the auxiliary battery is connected to the control unit through the ignition switch; the input end of the control unit is also connected to the steering wheel angle sensor that provides the steering wheel rotation direction and angle for the control unit, and the control unit. The unit provides the accelerator pedal position sensor that signals whether to step on the accelerator pedal and the degree of stepping, the gear switch that provides the gear position information to the control unit, the brake switch that provides the brake signal to the control unit when braking, and the vehicle speed to the control unit. The signal is connected to the vehicle speed sensor; the output ends of the control unit are respectively connected to the left front wheel hub motor, the right front wheel hub motor and the rear drive motor; the output ends of the rear drive motor are respectively connected to the left rear wheel and the right rear wheel through the differential ; Wherein, the power battery is a high-voltage power supply, which is used to provide working power for the high-voltage components in the control unit, and at the same time feed back voltage, power, temperature and current information to the control unit; the DC/DC converter DC The /DC converter is used to convert the high-voltage direct current of the power battery into 12V direct current to charge the auxiliary battery; the auxiliary battery is a low-voltage power supply with a voltage value of 12V to provide working power for the control unit and each sensor .

Table 1 is the principle of action of each main component in the utility model.

Table 1

Working principle and working process: the ignition switch is closed, and the electric vehicle enters the working state. The control unit determines whether each hub motor is working and the working mode through analysis and calculation according to the signals of the steering wheel angle, accelerator pedal position, gear position, brake, vehicle speed and other sensors.

When the vehicle is rapidly decelerating, braking or the vehicle speed exceeds the set maximum speed when the vehicle is moving forward, the control unit will automatically switch the working mode of the in-wheel motor to the energy recovery mode, and the kinetic energy of the vehicle will be converted into electric energy to charge the power battery.

The above descriptions are only preferred embodiments of the present utility model, and are not intended to limit the present utility model. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present utility model shall be included in this utility model. within the scope of protection of utility models.

Claims (4)

1. A kind of 1. four-wheel driving electric vehicle transmission system, it is characterised in that including power battery, its first output terminal and control Unit connects, its second output terminal is connected with DC/DC converters；The output terminal of the DC/DC converters connects with booster battery Connect, the output terminal of the booster battery is connected by ignition switch with control unit；The input terminal of described control unit also divides Not with providing the steering wheel angle sensor of steering wheel rotation direction and angle to control unit, providing and whether step on to control unit The accelerator pedal position sensor of accelerator pedal and the degree signal stepped on, to control unit provide gear information driving switch, The brake switch of brake signal is provided during braking to control unit, and the vehicle speed sensor of speed signal is provided to control unit Connection；The output terminal of described control unit is connected with left front wheel hub motor, off-front wheel hub motor and rear driving motor respectively；It is described The output terminal of motor is driven to be connected respectively with rear left wheel and right rear wheel by differential mechanism afterwards；Wherein, the power battery is High voltage power supply, it is used to provide working power for the high voltage device in described control unit, at the same by voltage, electricity, temperature and Current information feeds back to control unit；The DC/DC converters are used to the high voltage direct current of the power battery being converted into 12V Direct current, charges to the booster battery；The booster battery is low-tension supply, its magnitude of voltage is 12V, is the control Unit and each sensor provide working power.
2. A kind of 2. four-wheel driving electric vehicle transmission system as claimed in claim 1, it is characterised in that the left front wheel hub electricity Machine, off-front wheel hub motor and rear driving motor are brushless, permanently excited direct current motor, and when work is separate；The left front wheel hub When any one motor is drive pattern in motor, off-front wheel hub motor and rear driving motor, control unit is by controlling phase sequence The rotation direction of the wheel hub motor and rotating speed size are controlled with frequency.
3. 3. a kind of four-wheel driving electric vehicle transmission system as claimed in claim 1, it is characterised in that described control unit can Control the left front wheel hub motor, off-front wheel hub motor and drive any one motor in motor to be in power generation operation pattern afterwards When, the part kinetic energy that vehicle travels can be converted into electric energy, and store to power battery.
4. A kind of 4. four-wheel driving electric vehicle transmission system as claimed in claim 1, it is characterised in that the left front wheel hub electricity It is single that respective rotor-position and motor temperature technical parameter can be fed back to control by machine, off-front wheel hub motor and rear driving motor Member, makes control unit be controlled corresponding motor, and the starting protection pattern when corresponding motor is abnormal operation.