KR101755940B1 - Drive system of hybrid electric vehicle - Google Patents

Abstract

The present invention relates to a driving system of a hybrid vehicle, and its main object is to provide an E-4WD hybrid system that enables 4WD travel as well as 2WD using a smaller number of motors than a conventional E-4WD system. In order to achieve the above-mentioned object, an engine for generating power for driving a front wheel; A first motor connected to the rear wheel so as to transmit power so as to drive the rear wheel; A second motor connected to the engine so as to be able to transmit power; A planetary gear device interposed between the engine and the second motor and the front wheel to transmit power; A first clutch interposed between the planetary gear set and the front wheel for selectively transmitting or interrupting power; And intermittent means interposed between at least one of the rotary elements of the planetary gear set and the fixed structure in the vehicle for selectively switching the rotary element to a fixed element.

Description

[0001] The present invention relates to a drive system for a hybrid vehicle,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a drive system of a hybrid vehicle, and more particularly, to an E-4WD system of a hybrid vehicle capable of driving front wheels and rear wheels using an engine and an electric motor to drive a vehicle.

In general, a hybrid vehicle is a vehicle that uses an internal combustion engine (ICE) that uses fossil fuel and an electric motor that uses electric energy as a driving source. It can use both energy and electric energy of fossil fuel Therefore, it is an eco-friendly automobile that can reduce exhaust gas and improve fuel efficiency.

As a powertrain type of a hybrid vehicle, a TMED (Transmission Mounted Electric Device) system in which an electric motor is disposed on the transmission side is well known.

In a typical TMED system, a transmission is disposed on the output side of the electric motor, and an engine clutch is disposed between the engine and the electric motor. In the engaged state of the engine clutch, the power of the engine and the electric motor can be transmitted to the front wheels Respectively.

In the 2WD (2-wheel drive) hybrid vehicle of the TMED type, the engine and the electric motor, which are two driving motors of the vehicle, are disposed so as to be able to transmit power to the front wheel side of the drive wheel, and the torque of the engine and the electric motor is overlapped, And controls the drive torque of the front wheels in such a manner as to transmit them through the transmission.

1 is a diagram showing a power train configuration of a hybrid vehicle, which illustrates a TMED powertrain configuration in which an electric motor (hereinafter referred to as a 'drive motor') for driving a vehicle is attached to the transmission side.

1, a power train configuration of a hybrid vehicle is composed of an engine 1 and a drive motor 3 arranged in series as a drive source for driving the vehicle, and a drive motor 3 for driving the engine 1 and the drive motor 3 A transmission 4 for shifting the power of the engine 1 and the drive motor 3 to transmit the power to the drive shaft, a hybrid 4 directly connected to the engine 1 for power transmission, And a hybrid starter and generator (HSG) 5.

In this configuration, the engine clutch 2 is connected or disconnected between the two driving sources for driving the vehicle, that is, between the engine 1 and the driving motor 3 through the selective operation of engagement and disengagement.

The drive motor 3 is used as a drive means for driving the vehicle together with the engine 1 when the vehicle is running, and when the vehicle is braked or driven by inertia, the drive motor 3 operates as a generator, Is performed in the energy regeneration mode.

A battery 7 serving as a power source of the vehicle is charged and discharged to the motor of the vehicle, that is, the drive motor 3 and the HSG 5 through the inverter 6, Converts the direct current of the battery 7 into a three-phase alternating current for driving the drive motor 3 and the HSG 5, and applies the three-phase alternating current to the drive motor and the HSG.

The HSG 5 is an apparatus that performs an integrated function of a starter motor and a generator in a hybrid vehicle unlike a conventional internal combustion engine vehicle in which a starter motor and a generator are separately mounted. To the engine (1) to start the engine, to generate electric power by the rotational force transmitted from the engine (1), and to charge the battery (7) with electric energy generated in the power generation operation.

Meanwhile, the hybrid vehicle driving system as shown in FIG. 1 can be implemented as a 2WD (2-wheel drive) system having front wheels as driving wheels, and FIG. 2 schematically shows such a 2WD system.

Further, a drive system of a 4WD (4WD) hybrid vehicle based on the drive system of the 2WD front wheel drive vehicle has been proposed.

FIG. 3 is a view schematically showing a configuration of an E-4WD system according to the related art. As shown in FIG. 3, a propeller shaft, which is a mechanical power unit, is removed and an engine 1 and a drive motor 4WD (Electric-4WD) function by additionally mounting a drive motor MG2: 9 to the rear wheel R in addition to the MG1: MG1: 3.

As described above, the hybrid vehicle to which the E-4WD system is applied has independent driving means for the front wheel F and the rear wheel R, and each driving means can be independently driven or driven together according to driving conditions.

Such an E-4WD system is advantageous in that it can be easily developed since the 4WD function can be implemented by adding the rear wheel motor 9 without major modification in the existing 2WD system.

However, since the E-4WD system is implemented by additionally mounting the rear wheel motor 9 for the rear wheel drive in the 2WD system, the two motors of the front wheel motor MG1: 3 and the HSG 5 and the rear wheel motor MG2 : 9), a total of three motors are required, thus unnecessary cost increase and weight increase occur.

In particular, the conventional 2WD hybrid drive system does not change and optimizes and uses a large-capacity motor as in the case of the front wheel motor 3 for the rear wheel drive 9, (Redundancy), etc., are showing problems of cost and weight increase.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide a drive system for a hybrid vehicle that enables 4WD travel as well as 2WD using a smaller number of motors than a conventional E-4WD system. There is a purpose.

In order to achieve the above object, according to the present invention, there is provided an engine for generating power for driving a front wheel; A first motor connected to the rear wheel so as to transmit power so as to drive the rear wheel; A second motor connected to the engine so as to be able to transmit power; A planetary gear device interposed between the engine and the second motor and the front wheel to transmit power; A first clutch interposed between the planetary gear set and the front wheel for selectively transmitting or interrupting power; And intermittent means interposed between at least one of the rotary elements of the planetary gear set and the fixed structure in the vehicle for selectively switching the rotary elements to the fixed elements.

In a preferred embodiment, the rotary shaft of the engine is connected to the carrier of the planetary gear set so as to be able to transmit power, the rotary shaft of the second motor is connected to the sun gear of the planetary gear set so as to transmit power, And may be connected to the ring gear of the planetary gear set so as to be able to transmit power with the clutch interposed therebetween.

Further, the intermittent means includes a second clutch interposed between the ring gear of the planetary gear set and the in-vehicle fixed structure; And a third clutch interposed between the carrier of the planetary gear set and the fixed structure in the vehicle.

The drive system of the present invention described above is one of the running modes of the vehicle. The first clutch is engaged, the second clutch and the third clutch are disengaged, the engine and the first motor are driven, And a four-wheel drive power split mode in which the second motor is operated as a generator and the front wheels are driven by the engine power transmitted to the front wheel drive shaft and the second motor, and the rear wheels are driven by the first motor.

The drive system of the present invention described above is one of the running modes of the vehicle. The drive system includes a second clutch, a first clutch and a third clutch, and drives the engine and the first motor, The second motor is operated as a generator by the engine power transmitted through the first motor, and the rear wheel is driven by the first motor.

The driving system of the present invention described above is one of the running modes of the vehicle in which the first clutch and the third clutch are engaged and the second clutch is disengaged so that the rotational force is transmitted from the front wheels to the second motor via the planetary gear set And a regenerative mode in which regenerative braking by the second motor is performed while the rotational force is transmitted from the rear wheel to the first motor and energy is regenerated by the first motor.

The drive system of the present invention described above is one of the running modes of the vehicle in which the first clutch and the third clutch are engaged and the second clutch is disengaged to drive both the first motor and the second motor, 1 mode in which the rear wheels are driven by the motor and the power of the second motor is transmitted to the front wheel drive shaft through the planetary gear set so that the front wheels are driven.

In the drive system of the present invention, the second clutch is engaged to drive the second motor in a state where the ring gear of the planetary gear set becomes a fixed element, and the second The engine can be started by the power of the motor.

Thus, according to the drive system of the hybrid vehicle according to the present invention, the first motor for driving the rear wheels is mounted, and also the planetary gear device is interposed between the engine, the second motor and the front wheel drive shaft, It is possible to implement various modes such as an engine start mode, a power split mode, an engine independent drive mode, a serial mode, a regenerative mode, and an EV mode by using only two motors by providing a clutch for operating some of the elements as fixed elements 4WD driving can be realized.

Particularly, a serial mode showing excellent fuel economy effect can be implemented in the stagnation region, and a 4WD EV mode in which the front wheel and the rear wheel are driven together can be added, so that the fuel economy improvement effect can be expected as compared with the conventional 2WD hybrid system .

In addition, since the number of motors can be reduced as compared with a conventional E-4WD system requiring three motors, there is an advantage of cost reduction and weight reduction.

Further, since regenerative braking can be implemented using both the front wheel and the rear wheel, the effect of improving the fuel economy can be further increased.

1 is a diagram illustrating a power train configuration of a general hybrid vehicle.
2 is a view schematically showing a configuration of a conventional 2WD system.
3 is a view schematically showing a configuration of a conventional 4WD system.
4 is a diagram illustrating the configuration of a 4WD drive system for a hybrid vehicle according to an embodiment of the present invention.
5 to 8 are views showing various driving modes of a 4WD hybrid vehicle to which a driving system according to an embodiment of the present invention is applied.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains.

4 is a diagram illustrating the configuration of a 4WD drive system for a hybrid vehicle according to an embodiment of the present invention.

As shown in the figure, an engine 10 and two motors 9 and 11 are mounted as a driving source for driving the vehicle.

The engine 10 is provided with power for driving the front wheel F so that the power of the engine 10 can be transmitted to the front wheel F. In this case, The operation of the power transmission mechanism is controlled.

As will be described later, the power of the engine 10 is provided as a power generation power required to operate the second motor 11 as a generator in the series mode, and the second motor 11 receives the power of the engine 10 Electric energy generated when operating as a generator is stored in a battery (not shown) which is an energy storage means in the vehicle.

In addition, one of the two motors is connected to the engine 10 so as to be able to transmit power, and is used as a motor 11 used for engine starting and power generation, that is, as a conventional hybrid starter-generator (HSG) And the other is a motor 9 that is used to provide power for driving the rear wheel R, that is, a rear wheel motor .

Hereinafter, the rear wheel motor 9 will be referred to as a first motor MG1, and the other motor 11 connected to the engine 10 so as to transmit power is referred to as a second motor MG2 do.

First, the first motor 9 is a motor for driving the rear wheel R. The first motor 9 is mounted on the vehicle so as to transmit the power generated during driving to the rear wheels, and is driven by receiving power from a battery, .

The second motor 11 is connected to the engine 10 through a planetary gear device 12 that is a power transmitting mechanism so as to be capable of transmitting power. The engine 10, the second motor 11, the front wheel F, And the planetary gear device 12 is interposed between the drive shafts 31 of the planetary gear mechanism.

The planetary gear set 12 includes a sun gear 13, a pinion 14 that externally engages with the sun gear 13, a ring gear 15 meshing internally with the pinion 14, And a carrier 16 which integrally supports the pinions 14 and supports them.

In this planetary gear mechanism, the rotary element may be a sun gear 13, a ring gear 15, and a carrier 16, in which the sun gear 13 and the ring gear 15 are alternatively, So as to be connected to the fixed structure in the vehicle with the clutches 22 and 23 interposed therebetween.

The rotary shaft of the engine 10 is connected to the carrier 16 of the planetary gear set 12 so as to transmit power and the rotary shaft of the second motor 11 is connected to the sun gear 13 of the planetary gear set 12, Respectively.

The drive shaft 31 of the front wheel F is connected to the ring gear 15 of the planetary gear set 12 via the first clutch 21 so as to transmit power.

In this configuration, although not shown in the drawings, the transmission may be disposed between the first clutch 21 and the drive shaft 31 of the front wheel F. [

The first clutch 21 selectively transmits or interrupts power between the driving source of the vehicle and the front wheel F. More specifically, the first clutch 21 is connected to the ring gear 15 and the front wheel F of the planetary gear set 12, And the power transmission between the ring gear 15 and the drive shaft 31 is interrupted.

The first motor 9 and the second motor 11 are driven by receiving battery power while the two motors 9 and 11 operate as generators to charge the battery in the regenerative mode.

The battery is charged and discharged to the first motor 9 and the second motor 11 through an inverter system (not shown), and the inverter system includes a first motor 9 and a second motor 11, Phase alternating current to apply to the respective motors 9 and 11 in order to drive the motor.

In addition, when the second motor 11 receives the power of the engine 10 via the planetary gear set 12 and operates as a generator, electric energy generated at the time of power generation is transmitted to the battery through the inverter system to be stored Charging) the first motor 9. [0050]

In addition, intermittent means interposed between at least one of the rotary elements of the planetary gear set 12 and the fixed structure in the vehicle for selectively switching the rotary elements to the fixed elements is provided.

The second clutch 22 is interposed between the ring gear 15 of the planetary gear set 12 and the fixed structure in the vehicle and the carrier 16 of the planetary gear set 12 and the in- The third clutch 23 is interposed.

Here, the fixed structure in the vehicle may be a housing of the power transmission mechanism including the planetary gear set 12, and the like.

When the second clutch 22 is engaged and closed, the ring gear 15 of the planetary gear set 12 becomes a fixed element. When the third clutch 23 is engaged and closed, the planetary gear set 12 is closed, Of the carrier 16 becomes a stationary element.

Hereinafter, the operating state of the drive system according to the embodiment of the present invention will be described.

In the hybrid vehicle equipped with the E-4WD system according to the embodiment, the engine 10, the first motor 9, the second motor 11, the first clutch 21, the second clutch 22, The operation of the control unit 23 is controlled by a control unit (not shown), and the control unit may be a single integrated control unit, but may be a plurality of in-vehicle controllers.

In a conventional hybrid vehicle, a plurality of controllers collect various information from the vehicle in operating the components such as the engine, the motor, and the clutch, and perform cooperative control to control the components while exchanging various information and commands among the controllers .

Accordingly, in the present invention, the above-described components may be implemented in a hybrid control unit (HCU), an engine control unit (ECU), a motor control unit (MCU), a battery control unit (BMS) , A transmission control unit (TCU), and the like.

By way of example, the operation of the first clutch 21, the second clutch 22, and the third clutch 23 can be configured to be controlled by the shift controller.

The engine 10 and the second motor 11 are drive sources for driving the front wheels F as described above and the first motor 9 drives the rear wheels R It is a driving source.

In addition, the second motor 11 starts the engine 10 and generates power by engine power to charge the battery with electric energy generated at the time of power generation or to drive the first motor 9. [

First, at the start of the vehicle, the second clutch 22 is engaged so that the ring gear 15 becomes a stationary element, the sun gear 13 becomes an input element, and the carrier 16 becomes an output element.

Accordingly, when the second motor 11 is driven, the power of the second motor 11 is transmitted to the engine 10 through the sun gear 13, the pinion 14, and the carrier 16 to start the engine.

Next, FIG. 5 shows a power split mode. In the power split mode, the first clutch 21 is engaged and the second clutch 22 and the third clutch 23 are disengaged.

The power of the engine 10 is transmitted to the drive shaft 31 of the front wheel F through the planetary gear set 12 and the first clutch 21 so that the front wheel F .

In addition, the second motor 11 operates as a generator by the power of the engine 10, and the electric energy generated by the second motor 11 acting as a generator at this time is used to drive the first motor 9 .

That is, the first motor 9 is driven by the electric energy generated by the second motor 11 to generate power for driving the rear wheel R. Thus, both of the front wheel F and the rear wheel R of the vehicle 4WD running can be performed, and the hybrid traveling in which the vehicle travels can be performed by using the engine power and the motor power together.

Of course, the electric energy generated by the second motor 11 is stored in the battery so that the battery is charged and the first motor 9 is stopped, and only the front wheel F is driven by the engine 10 2WD running can be performed (engine alone mode).

6 is a diagram showing a series mode. In the serial mode, the second clutch 22 is engaged and the first clutch 21 and the third clutch 23 are disengaged.

Further, the engine 10 is driven so that the power of the engine 10 is transmitted to the second motor 11 through the planetary gear set 12, and the second motor 11 thereby operates as a generator.

The electric energy generated in the second motor 11, which operates as a generator as described above, is used to drive the first motor 9.

That is, the second motor 11 is operated as a generator by the power of the engine 10 and the first motor 9, which is the rear wheel motor, is driven by the electric energy generated by the second motor 11, So that 2WD travel by driving is performed.

7 shows the regenerative mode. In the regenerative mode, the first clutch 21 and the third clutch 23 are engaged and the second clutch 22 is disengaged.

Therefore, all the power transmitted from the rear wheel R is used for the power generation operation of the first motor 9, and the electric energy generated by the first motor 9 is stored in the battery to charge the battery.

The power transmitted from the front wheel F is transmitted to the second motor 11 through the planetary gear set 12 and regenerative braking by the second motor 11 is performed. The battery can be charged with the generated electric energy.

8 shows the EV mode. In the EV mode, the first clutch 21 and the third clutch 23 are engaged, and the second clutch 22 is disengaged.

The power of the first motor 9 is transmitted to the rear wheel R and the power of the second motor 11 is transmitted to the rear wheel R. [ Is transmitted to the front wheel (F) through the front wheel (12).

As a result, 4WD travel in which both the front wheel F and the rear wheel R of the vehicle are driven can be performed, and the EV mode travel in which the vehicle travels can be performed only by the motor power.

In this way, according to the drive system of the hybrid vehicle according to the present invention, the first motor 9 for driving the rear wheel R is mounted, and the engine 10, the second motor 11, The planetary gear set 12 is provided with the clutches 22 and 23 for actuating some of the components of the planetary gear set 12 as fixed elements between the two planetary gear sets 12, It is possible to implement various modes such as an engine start mode, a power split mode, an engine independent drive mode, a serial mode, a regenerative mode, and an EV mode, as well as 4WD driving.

Particularly, a serial mode showing excellent fuel economy effect can be implemented in the stagnation region, and a 4WD EV mode in which the front wheel and the rear wheel are driven together can be added, so that the fuel economy improvement effect can be expected as compared with the conventional 2WD hybrid system .

Further, since regenerative braking can be implemented using both the front wheel and the rear wheel, the effect of improving the fuel economy can be further increased.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the present invention is not limited to the disclosed exemplary embodiments. Forms are also included within the scope of the present invention.

9: first motor 10: engine
11: second motor 12: planetary gear device
13: sun gear 14: pinion
15: ring gear 16: carrier
21: first clutch 22: second clutch
23: third clutch 31: front wheel drive shaft
F: front wheel R: rear wheel

Claims (8)

An engine for generating power for driving front wheels; A first motor connected to the rear wheel so as to transmit power so as to drive the rear wheel; A second motor connected to the engine so as to be able to transmit power; A planetary gear device interposed between the engine and the second motor and the front wheel to transmit power; A first clutch interposed between the planetary gear set and the front wheel for selectively transmitting or interrupting power; And intermittent means interposed between at least one of the rotary elements of the planetary gear set and the fixed structure in the vehicle for selectively switching the rotary element to a fixed element,
Wherein the rotary shaft of the engine is connected to the carrier of the planetary gear set so as to be able to transmit power, the rotary shaft of the second motor is connected to the sun gear of the planetary gear set so as to transmit power, To the ring gear of the planetary gear unit,
The intermittent means includes a second clutch interposed between the ring gear of the planetary gear set and the in-vehicle fixed structure; And a third clutch interposed between the carrier of the planetary gear set and the in-vehicle fixed structure,
As one of the driving modes of the vehicle,
The first clutch is engaged,
The second clutch and the third clutch are disengaged,
The engine and the first motor are driven,
And a four-wheel drive power split mode in which the second motor is operated as a generator and the front wheels are driven and the rear wheels are driven by the first motor by the engine power transmitted to the front wheel drive shaft and the second motor through the planetary gear set The drive system of the hybrid vehicle.
delete delete delete The method according to claim 1,
As one of the driving modes of the vehicle,
The second clutch is engaged,
The first clutch and the third clutch are disengaged,
The engine and the first motor are driven,
Further comprising a series mode in which the second motor is operated as a generator by the engine power transmitted through the planetary gear unit and the rear wheels are driven by the first motor.
The method according to claim 1,
As one of the driving modes of the vehicle,
The third clutch is engaged,
The first clutch and the second clutch are separated,
There is a regenerative mode in which regenerative braking is performed by the second motor while rotational force is transmitted from the front wheel to the second motor through the planetary gear device and rotational power is transmitted from the rear wheel to the first motor to thereby regenerate energy by the first motor A driving system of a hybrid car characterized by.
The method according to claim 1,
As one of the driving modes of the vehicle,
The first clutch and the third clutch are engaged,
The second clutch is disengaged,
By driving both the first motor and the second motor,
Further comprising an EV mode in which the rear wheels are driven by the first motor and the power of the second motor is transmitted to the front wheel drive shaft through the planetary gear device to drive the front wheels.
The method according to claim 1,
Characterized in that the engine is started by the power of the second motor which is transmitted to the engine through the planetary gear device by driving the second motor in a state in which the second clutch is engaged and the ring gear of the planetary gear device becomes a fixed element The drive system of the hybrid vehicle.

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