CN217124541U - Hybrid power system - Google Patents

Abstract

The utility model discloses a hybrid power system, which comprises an engine, a first motor, a second motor, a connecting shaft, a clutch component, a first input shaft, a second input shaft, an output shaft and a gear transmission component, wherein the clutch component comprises a first clutch, a second clutch and a third clutch; the engine is connected with a connecting shaft, the connecting shaft is connected with a third clutch, the third clutch is connected with a second motor, the second motor is connected with a first clutch and a second clutch, the first clutch is connected with the first input shaft, and the second clutch is connected with the second input shaft; the gear transmission assembly is connected among the first input shaft, the second input shaft and the output shaft; the first motor is connected with the connecting shaft. Realize more operating modes, guarantee that engine, first motor and second motor are in high-efficient operation interval work all the time, improve transmission efficiency, promote dynamic property and economic nature.

Description

Hybrid power system

Technical Field

The utility model belongs to the derailleur field especially relates to hybrid power system.

Background

At present, a power system of a hybrid electric vehicle mainly comprises three basic forms of series connection, parallel connection and series-parallel connection.

In a series-connection type power system, an engine is not mechanically connected with an output shaft, so that the optimal control of rotating speed/torque can be realized, but all energy of the energy can be transmitted to the output shaft only through twice conversion between mechanical power/electric power, and the loss is large;

the parallel power system has high transmission efficiency, but the mechanical connection between the engine and the output shaft can not ensure that the engine is always in a better working area and is usually used for medium/high vehicle speed;

the hybrid power system combines the advantages of series connection and parallel connection, and can realize the optimal control of the engine and the high-efficiency control of medium/high speed; for a series-parallel connection system, an engine and a motor are both in a single gear generally, and the vehicle cannot be guaranteed to run in a working mode that the engine and the motor are in a high-efficiency interval all the time, for example, the optimal mode at a high vehicle speed is an engine direct-drive/parallel-drive mode; correspondingly, the motor is not in the high-efficiency operation area in the series-parallel range-extending mode, so that the transmission efficiency of a power system is influenced, and the oil consumption of the whole vehicle is further increased.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the problem of lower transmission efficiency of the existing scheme, a hybrid power system is provided.

In order to solve the technical problem, an embodiment of the present invention provides a hybrid power system, including an engine, a first motor, a second motor, a connecting shaft, a clutch assembly, a first input shaft, a second input shaft, an output shaft, and a gear transmission assembly, where the clutch assembly includes a first clutch, a second clutch, and a third clutch;

the engine is connected with the connecting shaft, the connecting shaft is connected with the third clutch, the third clutch is connected with the second motor, the second motor is respectively connected with the first clutch and the second clutch, the first clutch is connected with the first input shaft, and the second clutch is connected with the second input shaft; the gear transmission assembly is connected among the first input shaft, the second input shaft and the output shaft;

the first motor is connected with the connecting shaft.

Optionally, the second input shaft is sleeved outside the first input shaft.

Optionally, the gear transmission assembly includes a first gear pair, a second gear pair, a first synchronizer and a second synchronizer, the first gear pair is coupled between the first input shaft and the output shaft through the first synchronizer, and the second gear pair is coupled between the second input shaft and the output shaft through the second synchronizer.

Optionally, the transmission further comprises a third gear pair coupled between the first input shaft and the output shaft through the first synchronizer.

Optionally, the first-gear pair comprises a first-gear driving gear arranged on the first input shaft and a first-gear driven gear arranged on the output shaft, and the first-gear driving gear is connected with the first-gear driven gear;

the second gear pair comprises a second driving gear arranged on the second input shaft and a second driven gear arranged on the output shaft, and the second driving gear is connected with the second driven gear;

the third gear pair comprises a third gear driving gear arranged on the first input shaft and a third gear driven gear arranged on the output shaft, and the third gear driving gear is connected with the third gear driven gear.

Optionally, the second gear pair, the third gear pair and the first gear pair are sequentially arranged in a direction away from the clutch assembly.

Optionally, the transmission device further comprises a fourth-gear pair, the fourth-gear pair is combined between the second input shaft and the output shaft through the second synchronizer, the fourth-gear pair comprises a fourth-gear driving gear arranged on the second input shaft and a fourth-gear driven gear arranged on the output shaft, and the fourth-gear driving gear is connected with the fourth-gear driven gear.

Optionally, the fourth-gear pair is located between the second-gear pair and the third-gear pair.

Optionally, the clutch assembly further comprises a clutch housing, and the first clutch, the second clutch and the third clutch are all connected to the clutch housing.

Optionally, the driving part of the first clutch is connected to the clutch housing, and the driven part of the first clutch is connected to one end of the first input shaft;

the driving part of the second clutch is connected to the clutch shell, and the driven part of the second clutch is connected to one end of the second input shaft;

the driving part of the third clutch is connected to the connecting shaft, and the driven part of the third clutch is connected to the clutch shell.

Optionally, the second electric machine is fixed to the clutch housing.

Optionally, the first motor is connected with the connecting shaft through a transmission gear pair, and the transmission gear pair, the clutch assembly and the gear transmission assembly are sequentially arranged in the direction away from the engine.

Optionally, the first electric machine is arranged on a shell of the transmission or on a cylinder block of the engine;

the second motor is arranged at the front end of the shell of the transmission.

The embodiment of the utility model provides a hybrid power system, through the control of first clutch, second clutch and third clutch, can realize the power take off control of engine and the power take off control of second motor, the engine can also drive first motor electricity generation when driving or parking, and drive the second motor electricity generation when parking, the second motor can also retrieve brake energy, thereby hybrid power system can realize the multiple fender position under the engine direct drive mode, the multiple fender position under the pure electric mode, the multiple fender position under the multiple and series-parallel connection drive mode, the multiple fender position under the series-parallel connection range extending mode, multiple brake energy recovery mode, multiple parking electricity generation mode, thereby guarantee that engine, first motor and second motor are in high-efficient operation interval work all the time, improve transmission efficiency, the unpowered interrupt switch between different work modes, not only can realize the comprehensive promotion of car dynamic nature and economic nature, make the car possess good driving comfort moreover.

Drawings

Fig. 1 is a schematic structural diagram of a hybrid power system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a hybrid power system according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram three of a hybrid power system according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a hybrid power system according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a hybrid power system according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram six of a hybrid power system according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram seven of a hybrid power system according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram eight of a hybrid power system according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram nine of a hybrid power system according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram ten of a hybrid power system according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram eleven of a hybrid power system according to an embodiment of the present invention;

fig. 12 is a schematic diagram twelve of a hybrid power system according to an embodiment of the present invention;

fig. 13 is a schematic diagram thirteen illustrating a hybrid power system according to an embodiment of the present invention;

the reference numerals in the specification are as follows:

1. an engine; 2. a first motor; 3. a second motor;

4. a first input shaft; 5. a second input shaft; 6. an output shaft;

7. a third clutch; 8. a first clutch; 9. a second clutch; 10. a first synchronizer; 11. a second synchronizer;

12. a main reduction driving gear; 13. a driving reduction driven gear; 14. a differential mechanism;

15. a speed increasing gear pair; 151. a speed-increasing drive gear; 152. a speed-increasing driven gear;

16. a connecting shaft;

211. a first gear driving gear; 212. a first-gear driven gear;

221. a second gear driving gear; 222. a second driven gear;

231. a third gear drive gear; 232. a third-gear driven gear;

241. a fourth gear drive gear; 242. and a fourth-gear driven gear.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

As shown in fig. 1 to 4, a hybrid power system provided by an embodiment of the present invention includes an engine 1, a first motor 2, a second motor 3, a connecting shaft 16, a clutch assembly, a first input shaft 4, a second input shaft 5, an output shaft 6, and a gear transmission assembly, where the clutch assembly includes a first clutch 8, a second clutch 9, and a third clutch 7;

the engine 1 is connected with a connecting shaft 16, the connecting shaft 16 is connected with a third clutch 7, the third clutch 7 is connected with a second motor 3, the second motor 3 is respectively connected with a first clutch 8 and a second clutch 9, the first clutch 8 is connected with the first input shaft 4, and the second clutch 9 is connected with the second input shaft 5;

the gear transmission assembly is connected among the first input shaft 4, the second input shaft 5 and the output shaft 6;

the first motor 2 is connected to a connecting shaft 16.

In the present application, for simplicity of description, the first input shaft 4 and the second input shaft 5 are collectively referred to as an input shaft, the output shaft 6, the motor shaft of the first motor 2, and the connecting shaft 16 are collectively referred to as a shaft, the first clutch 8, the second clutch 9, and the third clutch 7 are collectively referred to as a clutch, and the first motor 2 and the second motor 3 are collectively referred to as a motor.

In some embodiments, the first electric machine 2 is mainly used for generating electricity, and in a special condition with a large power demand, the driving power of the engine 1 is insufficient, and even when the driving power of the engine 1 and the second electric machine 3 as a whole is insufficient, the first electric machine 2 can be used for driving.

In some embodiments, the second electric machine 3 is mainly used for driving, and when the braking energy is recovered, the second electric machine 3 can also be used for generating electricity, or when the power battery needs to be rapidly charged, the second electric machine 3 can also generate electricity together with the first electric machine 2.

The hybrid power system provided by the embodiment of the utility model can realize the power output control of the engine 1 and the power output control of the second motor 3 through the control of the first clutch 8, the second clutch 9 and the third clutch 7, the engine 1 can also drive the first motor 2 to generate power when driving or parking, and drive the second motor 3 to generate power when parking, and the second motor 3 can also recover the braking energy, so that the hybrid power system can realize a plurality of gears under the direct drive mode of the engine, a plurality of gears under the pure electric mode, a plurality of parallel-serial driving modes (i.e. the engine 1 is driven and the first motor 2 is driven, the engine 1 and the second motor 3 are driven, or the engine 1, the first motor 2 and the second motor 3 are driven), a plurality of gears under the series-parallel connection range-extending mode (i.e. the engine 1 is driven, the first motor 2 generates power and supplies power to the second motor 3, second motor 3 drive), multiple fender position, multiple braking energy recovery mode (i.e. the wheel end drives second motor 3 electricity generation through driven reverse path), multiple parking electricity generation mode (i.e. engine 1 drives first motor 2 electricity generation, or drive first motor 2 and second motor 3 electricity generation simultaneously), thereby guarantee engine 1, first motor 2 and second motor 3 are in high-efficient operation interval work all the time, transmission efficiency is improved, the unpowered interrupt switching between different work modes, not only can realize the comprehensive promotion of car dynamic nature and economic nature, and make the car possess good driving comfort.

In one embodiment, as shown in fig. 1 to 4, the second input shaft 5 is sleeved outside the first input shaft 4, so that the structure is simple and compact, and the hybrid power system is light in weight and small in size.

In one embodiment, as shown in fig. 1-4, the range transmission assembly includes a first gear pair, a second gear pair, a first synchronizer 10, and a second synchronizer 11; the first gear pair is combined between the first input shaft 4 and the output shaft 6 through the first synchronizer 10; the second gear pair is coupled between the second input shaft 5 and the output shaft 6 via a second synchronizer 11.

In the present application, for simplicity, the gear pairs of the forward gears are collectively referred to as gear pairs, the driving gears of the gear pairs are collectively referred to as gear driving gears, the driven gears of the gear pairs are collectively referred to as gear driven gears, the gear driving gears and the gear driven gears are collectively referred to as gear gears, and the first synchronizer 10 and the second synchronizer 11 are collectively referred to as synchronizers.

The power output control of the engine 1 and the power output control of the second motor 3 can be realized through the control of the first clutch 8, the second clutch 9 and the third clutch 7, the control of different driving gears can be realized through the control of the first synchronizer 10 and the second synchronizer 11, the engine 1 can also drive the first motor 2 to generate power when driving or parking, and drive the second motor 3 to generate power when parking, and the second motor 3 can also recover the braking energy, so that the hybrid power system can realize two gears in an engine direct drive mode, two gears in a pure electric mode, a plurality of parallel-series hybrid drive modes (namely the engine 1 is driven by the first motor 2, the engine 1 is driven by the second motor 3, or the engine 1 is driven by the first motor 2 and the second motor 3), and a series-parallel hybrid range-extending mode (namely the engine 1 is driven, first motor 2 generates electricity and supplies power to second motor 3, two fender positions under the drive of second motor 3), multiple braking energy recovery mode (namely wheel end drives second motor 3 electricity generation through one fender or two fender driven reverse path), multiple parking electricity generation mode (namely engine 1 drives first motor 2 electricity generation, or drive first motor 2 and second motor 3 electricity generation simultaneously), thereby guarantee engine 1, first motor 2 and second motor 3 are in high-efficient operation interval work all the time, transmission efficiency is improved, the unpowered interrupt switching between different work modes, not only can realize the comprehensive promotion of automobile dynamic nature and economic nature, and make the automobile possess good driving comfort.

Specifically, the first synchronizer 10 may be fixed to the first input shaft 4 or the output shaft 6, and the second synchronizer 11 may be fixed to the second input shaft 5 or the output shaft 6. Preferably, the first synchronizer 10 and the second synchronizer 11 are both fixed on the output shaft 6, so that better shifting performance is achieved, and weight reduction and miniaturization of the synchronizers are facilitated.

Fig. 1 to 4 correspond to four different synchronizer arrangements of a two-gear hybrid powertrain, respectively;

fig. 5 to 8 correspond to four different arrangements of the synchronizers of the three-gear hybrid system, respectively;

fig. 9 to 12 correspond to four different synchronizer arrangements of the four-gear hybrid system, respectively.

Specifically, the first-gear pair includes a first-gear driving gear 211 provided on the first input shaft 4, and a first-gear driven gear 212 provided on the output shaft 6, the first-gear driving gear 211 being connected to the first-gear driven gear 212;

the second gear pair includes a second driving gear 221 disposed on the second input shaft 5 and a second driven gear 222 disposed on the output shaft 6, and the second driving gear 221 is connected to the second driven gear 222. The parallel shaft gear system is adopted for transmission, the structure is simple, the processing and the assembly are easy, and the transmission precision is ensured.

Specifically, the first electric machine 2 is a generator, such as a 48V generator, and the second electric machine 3 is a motor.

In an embodiment, as shown in fig. 5-8, and 13, the gear transmission assembly further comprises a third gear pair coupled between the first input shaft 4 and the output shaft 6 via a first synchronizer 10.

The hybrid power system can realize three gears under an engine direct drive mode, three gears under a pure electric mode, a plurality of parallel-series driving modes (namely, the engine 1 is driven by the first motor 2, the engine 1 is driven by the second motor 3, or the engine 1, the first motor 2 and the second motor 3 are driven), a series-parallel range-extending mode (namely, the engine 1 is driven, the first motor 2 generates power and supplies power to the second motor 3, and the second motor 3 is driven by the third motor), three gears under a plurality of braking energy recovery modes (namely, a wheel end drives the second motor 3 to generate power through a reverse path driven by the first gear, the second gear or the third gear), a plurality of parking power generation modes (namely, the engine 1 drives the first motor 2 to generate power, or drives the first motor 2 and the second motor 3 to generate power simultaneously), thereby being more beneficial to ensuring that the engine 1 and the motors are always in a high-efficiency operation region, the gear pair of odd-numbered fender and even-numbered fender arranges on different input shafts, guarantees between different operating modes and the homoenergetic of different gears and realizes unpowered interruption switching, further promotes dynamic property, economic nature and the driving comfort of car.

Specifically, the first synchronizer 10 is arranged between the first-gear pair and the third-gear pair, and the first-gear pair and the third-gear pair are combined between the first input shaft 4 and the output shaft 6 through the first synchronizer 10, so that the structure is simplified and miniaturized, and the weight is reduced.

Specifically, the third gear pair includes a third gear driving gear 231 disposed on the first input shaft 4 and a third gear driven gear 232 disposed on the output shaft 6, and the third gear driving gear 231 is connected to the third gear driven gear 232; the parallel shaft gear system is adopted for transmission, the structure is simple, the processing and the assembly are easy, and the transmission precision is ensured.

In one embodiment, as shown in fig. 5-8, the second gear pair, the third gear pair and the first gear pair are sequentially arranged in a direction away from the clutch assembly, which is beneficial to reducing the deflection of the first input shaft 4 and increasing the transmission stability. Specifically, the first-gear driving gear 211 and the third-gear driving gear 231 are provided on a section of the first input shaft 4 that extends out of the second input shaft 5 in a direction away from the engine 1;

the third-gear driving gear 231, the first synchronizer 10 and the first-gear driving gear 211 can be sequentially arranged on the first input shaft 4 along the direction far away from the engine 1, the third-gear driving gear 231 and the first-gear driving gear 211 are both sleeved on the first input shaft 4 in a hollow manner, the first synchronizer is fixedly arranged on the first input shaft 4, the third-gear driven gear 232 and the first-gear driven gear 212 are both fixedly arranged on the output shaft 6, and the combination or disconnection of the first-gear pair or the third-gear pair between the first input shaft 4 and the output shaft 6 can be realized through the first synchronizer 10;

preferably, the third-gear driving gear 231 and the first-gear driving gear 211 are all fixedly arranged on the first input shaft 4, the third-gear driven gear 232, the first synchronizer 10 and the first-gear driven gear 212 are sequentially arranged on the output shaft 6 along a direction away from the engine 1, the third-gear driven gear 232 and the first-gear driven gear 212 are all sleeved on the output shaft 6 in a non-sleeved mode, the first synchronizer 10 is fixedly arranged on the output shaft 6, combination or disconnection of the first-gear pair or the third-gear pair between the first input shaft 4 and the output shaft 6 can be achieved through the first synchronizer 10, the first synchronizer 10 is arranged on the output shaft 6 and is arranged on the first input shaft 4, the gear shifting performance is better, and meanwhile miniaturization and weight reduction of the first synchronizer 10 are facilitated.

In an embodiment, as shown in fig. 9-12, the gear transmission assembly further comprises a four-gear wheel set coupled between the second input shaft 5 and the output shaft 6 via a second synchronizer 11.

The hybrid power system can realize four gears under an engine direct drive mode, four gears under a pure electric mode, a plurality of parallel-series driving modes (namely, the engine 1 is driven by the first motor 2, the engine 1 is driven by the second motor 3, or the engine 1, the first motor 2 and the second motor 3 are driven), a series-parallel range-extending mode (namely, the engine 1 is driven, the first motor 2 generates power and supplies power to the second motor 3, and the second motor 3 is driven) and four gears under a plurality of braking energy recovery modes (namely, a wheel end drives the second motor 3 to generate power through a reverse path of first gear or second gear or third gear or fourth gear drive), a plurality of parking power generation modes (namely, the engine 1 drives the first motor 2 to generate power, or drives the first motor 2 and the second motor 3 to generate power simultaneously), thereby being more beneficial to ensuring that the engine 1 and the motors are always in a high-efficiency operation region, the gear pair of odd-numbered fender and even-numbered fender arranges on different input shafts, guarantees between different operating modes and the homoenergetic of different gears and realizes unpowered interruption switching, further promotes dynamic property, economic nature and the driving comfort of car.

Specifically, the second synchronizer 11 is arranged between the second-gear pair and the fourth-gear pair, and the second-gear pair and the fourth-gear pair are combined between the second input shaft 5 and the output shaft 6 through the second synchronizer 11, so that the structure simplification and the miniaturization are facilitated, and the weight reduction is facilitated.

Specifically, the four-gear pair includes a four-gear driving gear 241 disposed on the second input shaft 5 and a four-gear driven gear 242 disposed on the output shaft 6, and the four-gear driving gear 241 is connected with the four-gear driven gear 242; the parallel shaft gear system is adopted for transmission, the structure is simple, the processing and the assembly are easy, and the transmission precision is ensured.

In an embodiment, as shown in fig. 5 to 8, the four-gear pair is located between the two-gear pair and the three-gear pair, which is beneficial to reducing the deflection of the second input shaft 5 and increasing the transmission stability.

Specifically, the second-gear driving gear 221, the second synchronizer 11 and the fourth-gear driving gear 241 are sequentially arranged on the second input shaft 5 along a direction away from the engine 1, the second-gear driving gear 221 and the fourth-gear driving gear 241 are all freely sleeved on the second input shaft 5, the second synchronizer 11 is fixedly arranged on the second input shaft 5, the second-gear driven gear 222 and the fourth-gear driven gear 242 are fixedly arranged on the output shaft 6, and the second synchronizer 11 can realize the combination or disconnection of the second-gear pair or the fourth-gear pair between the second input shaft 5 and the output shaft 6;

preferably, the second-gear driving gear 221 and the fourth-gear driving gear 241 are all fixedly arranged on the second input shaft 5, the second-gear driven gear 222, the second synchronizer 11 and the fourth-gear driven gear 242 are sequentially fixedly arranged on the output shaft 6 along a direction away from the engine 1, the second-gear driven gear 222 and the fourth-gear driven gear 242 are all sleeved on the output shaft 6 in a free manner, the second synchronizer 11 is fixedly arranged on the output shaft 6, combination or disconnection of the second-gear pair or the fourth-gear pair between the second input shaft 5 and the output shaft 6 can be achieved through the second synchronizer 11, the second synchronizer 11 is arranged on the output shaft 6 and is arranged on the second input shaft 5, the gear shifting performance is better, and meanwhile miniaturization and weight reduction of the second synchronizer 11 are facilitated.

In the aforementioned hybrid system provided with two gears, three gears, or four gears, the number of gears is increased, which can provide larger power, but the size is increased, and the cost is increased, so that a hybrid system having two gears (i.e., a hybrid system provided with a first gear pair and a second gear pair), or a hybrid system having three gears (i.e., a hybrid system provided with a first gear pair, a second gear pair, and a third gear pair), or a hybrid system having four gears (i.e., a hybrid system provided with a first gear pair, a second gear pair, a third gear pair, and a fourth gear pair) can be selected according to a specific vehicle type performance development target and a whole vehicle cabin arrangement space.

In the preferred embodiment, the first input shaft 4 for the odd gears is inside and the second input shaft 5 for the even gears is outside, ensuring that a greater torque is transmitted by the first clutch 8 to the first input shaft 4.

In an embodiment, as shown in fig. 1, the clutch assembly further includes a clutch housing, and the first clutch 8, the second clutch 9 and the third clutch 7 are all connected to the clutch housing, so that the clutch housing, the first clutch 8, the second clutch 9 and the third clutch 7 form a three-clutch structure, which realizes the integration of the clutch assembly, and has a simple and compact structure, and is convenient for assembly.

Specifically, one end of the clutch housing is loosely fitted over the second input shaft 5, and the other end is loosely fitted over the connecting shaft 16.

In one embodiment, the driving part of the first clutch 8 is connected to the clutch housing, and the driven part is connected to one end of the first input shaft 4;

the driving part of the second clutch 9 is connected to the clutch housing, and the driven part is connected to one end of the second input shaft 5;

the driving part of the third clutch 7 is connected to the connecting shaft 16, and the driven part is connected to the clutch housing;

the hybrid power system has simple and compact structure and reliable and stable transmission.

Preferably, the triple clutch is a wet triple clutch.

In one embodiment, the second motor 3 is fixed on the clutch housing, so that the connection between the second motor 3 and the clutch assembly is simplified, and the transmission is reliable and stable.

In one embodiment, the first electric machine 2 is provided on a housing of the transmission, and the second electric machine 3 is provided at a front end of the housing of the transmission. In the hybrid power system shown in fig. 1-12, the first motor 2 and the second motor 3 are assembled by a transmission production line, and the first motor 2 and the second motor 3 are both mounted on a housing of the transmission and are cooled, lubricated and start-stop controlled by the transmission.

In one embodiment, the first electric machine 2 is provided on the cylinder block of the engine 1, and the second electric machine 3 is provided at the front end of the housing of the transmission. In the hybrid system shown in fig. 13, the first motor 2 is assembled on the engine 1 production line, the first motor 2 is mounted on the cylinder of the engine 1 and is cooled, lubricated and start-stop controlled by the engine 1, the second motor 3 is assembled on the transmission production line, and the second motor 3 is mounted on the housing of the transmission and is cooled, lubricated and start-stop controlled by the transmission.

The first motor 2 is specifically arranged on a shell of the transmission or on a cylinder body of the engine 1, and can be reasonably selected according to the installation space of the automobile.

In one embodiment, the first motor is connected to the connecting shaft through a transmission gear pair, and the transmission gear pair 15, the clutch assembly and the gear transmission assembly are sequentially arranged in a direction away from the engine. Set up transmission gear pair 15, be favorable to carrying out torque modulation to first motor when wheel end transmission power or engine transmit power to first motor 2 to can adopt the first motor 2 of littleer volume, the vice, clutch assembly of movable gear, fender position transmission assembly are towards keeping away from the direction of engine sets gradually compact structure.

Specifically, the transmission gear pair 15 is a speed-increasing gear pair, and includes a speed-increasing driving gear 151 disposed on the connecting shaft 16 and a speed-increasing driven gear 152 disposed on a motor shaft of the first motor 2, and the speed-increasing driving gear 151 is connected to the speed-increasing driven gear 152. Set up the acceleration gear pair, realize that engine 1 falls to the acceleration rate of first motor 2 transmission power and turns round, improve the generating efficiency, be favorable to first motor 2's miniaturization, adopt parallel shaft tooth system to carry out power transmission, simple structure, easily processing, assembly guarantee the transmission precision.

In addition, the driving and driven power-saving device further comprises a driving and driven gear pair and a differential 14, wherein the driving and driven gear pair comprises a driving and driven gear 12 and a driving and driven gear 13 which are meshed with each other, the driving and driven gear 12 is fixedly arranged on the output shaft 6, the driving and driven gear 13 is fixedly arranged on the differential 14, and the differential 14 outputs power to left and right wheels through left and right half shafts. The power output by the output shaft 6 is decelerated and torque-increased through the main reduction gear pair, so that the power requirement of wheels is better matched.

Specifically, the first input shaft 4, the second input shaft 5, and the output shaft 6 are supported on a housing of the transmission through bearings.

Specifically, the gear driving gear on the first input shaft 4 can be welded, splined, interference press-fitted or directly generated on the first input shaft 4, so that the connection and synchronous rotation of the corresponding gear driving gear and the first input shaft 4 are realized, and the gear driving gear can also be freely sleeved on the first input shaft 4 through a bearing, so that the rotary connection of the gear driving gear and the first input shaft 4 is realized;

specifically, the gear driving gear on the second input shaft 5 can be welded, splined, interference press-fitted or directly generated on the second input shaft 5, so that the connection and synchronous rotation of the corresponding gear driving gear and the second input shaft 5 are realized, and the gear driving gear can also be freely sleeved on the second input shaft 5 through a bearing, so that the rotary connection of the gear driving gear and the second input shaft 5 is realized;

specifically, the gear driven gear on the output shaft 6 can be welded, splined, interference-press-fitted or directly generated on the output shaft 6, so that the connection and synchronous rotation of the corresponding gear driving gear and the output shaft 6 are realized, and the gear driven gear can also be freely sleeved on the output shaft 6 through a bearing, so that the rotary connection of the gear driving gear and the output shaft 6 is realized;

specifically, the main reduction driving gear 12, the speed increasing driving gear 151 and the speed increasing driven gear 152 may be welded, splined, press-fitted with interference or directly formed on the corresponding shafts, so as to realize connection and synchronous rotation of the main reduction driving gear and the corresponding shafts;

specifically, the hubs of the synchronizers are splined to the respective shafts.

The hybrid power system provided with the first gear pair and the second gear pair comprises a first gear working state and a second gear working state; the hybrid power system provided with the first-gear pair, the second-gear pair and the third-gear pair comprises a first-gear working state, a second-gear working state and a third-gear working state; the hybrid power system provided with the first-gear pair, the second-gear pair, the third-gear pair and the fourth-gear pair comprises a first-gear working state, a second-gear working state, a third-gear working state and a fourth-gear working state. The following description of the various gears of the preferred embodiment is provided:

when each gear works, at least one of the engine 1, the first motor 2 and the second motor 3 is used as a power source; when the engine 1 or the first motor 2 is required to be used as a power source to output power, the third clutch 7 is combined, otherwise, the third clutch 7 is disconnected;

in the first gear, the first clutch 8 is engaged, and the first synchronizer 10 engages a gear pair between the first input shaft 4 and the output shaft 6 (i.e. the first synchronizer 10 engages a first gear), and the power flow is: the power source- > the first clutch 8- > the first input shaft 4- > a gear pair, the first synchronizer 10- > the output shaft 6- > the main reduction gear pair > the differential 14- > wheels.

When the second gear works, the second clutch 9 is combined, the second synchronizer 11 combines the second gear pair between the second input shaft 5 and the output shaft 6 (namely, the second synchronizer 11 hangs two gears), and the power flow is as follows: power source- > second clutch 9- > second input shaft 5- > second gear pair, second synchronizer 11- > output shaft 6- > main reducing gear pair > differential 14- > wheel.

When the third gear is operated, the first clutch 8 is engaged, and the first synchronizer 10 engages the third gear pair between the first input shaft 4 and the output shaft 6 (i.e., the first synchronizer 10 engages the third gear), and the power flow is: the power source- > the first clutch 8- > the first input shaft 4- > the third gear pair, the first synchronizer 10- > the output shaft 6- > the main reduction gear pair > the differential 14- > wheel.

When the fourth gear is in operation, the second clutch 9 is engaged, the second synchronizer 11 engages the four-gear pair between the second input shaft 5 and the output shaft 6 (i.e. the second synchronizer 11 engages the fourth gear), and the power flow is: the power source- > second clutch 9- > second input shaft 5- > four-gear pair, second synchronizer 11- > output shaft 6- > main reducing gear pair > differential 14- > wheel.

This application, the aforesaid is equipped with the hybrid power system who keeps off gear pair and two keep off the gear pair, the aforesaid is equipped with one and keeps off the gear pair, the hybrid power system of two keep off gear pair and three keep off the gear pair, and the aforesaid is equipped with one and keeps off the gear pair, two keep off the gear pair, three keep off the gear pair and four keep off the hybrid power system of gear pair, all have the engine and directly drive the mode, pure electric mode, and series-parallel connection drive mode, the series-parallel connection increases the journey mode, braking energy recovery mode and parking power generation mode, be applicable to various road conditions, guarantee engine 1, first motor 2 and second motor 3 work all the time in the high-efficient interval, promote the dynamic property and the economic nature of car. The following describes in detail various operation modes, taking as an example a hybrid system provided with a first-gear pair, a second-gear pair, and a third-gear pair, and power flows in the various operation modes will be described taking as an example a configuration shown in fig. 5. The operating modes and gears are shown in table 1.

TABLE 1

The specific operating states of the modes are as follows:

1) the hybrid power system has three engine direct-drive modes, namely an engine direct-drive mode I, an engine direct-drive mode II and an engine direct-drive mode III.

11) Direct drive mode I of engine

The third clutch 7 is combined, the first clutch 8 is combined, the first synchronizer 10 is combined with a first gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps a neutral gear, the engine 1 is started, and the first motor 2 and the second motor 3 are closed so as to establish a first direct drive mode of the engine; the mode is a first gear mode in a direct drive mode of the engine, and wheels are driven by the engine 1 independently;

the power flow in the first direct drive mode of the engine is as follows: the engine 1- > the third clutch 7- > the first clutch 8- > the first input shaft 4- > the first gear driving gear 211- > the first gear driven gear 212- > the first synchronizer 10- > the output shaft 6- > the main reduction driving gear 12- > the main reduction driven gear 13- > the differential 14- > wheel.

12) Direct drive mode II of engine

The third clutch 7 is combined, the first clutch 8 is disconnected, the first synchronizer 10 keeps a neutral gear, the second clutch 9 is combined, the second synchronizer 11 is combined with the second gear pair, the engine 1 is started, and the first motor 2 and the second motor 3 are closed to establish a second direct drive mode of the engine; the mode is a second gear mode in the direct drive mode of the engine, and wheels are driven by the engine 1 independently;

the power flow in the direct drive mode II of the engine is as follows: the engine 1- > the third clutch 7- > the second clutch 9- > the second input shaft 5- > the second driving gear 221- > the second driven gear 222- > the second synchronizer 11- > the output shaft 6- > the main reducing driving gear 12- > the main reducing driven gear 13- > the differential 14- > wheel.

13) Direct drive mode III of engine

The third clutch 7 is combined, the first clutch 8 is combined, the first synchronizer 10 is combined with the third-gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps a neutral gear, the engine 1 is started, and the first motor 2 and the second motor 3 are closed so as to establish a third direct drive mode of the engine; the mode is a three-gear mode in the direct drive mode of the engine, and wheels are driven by the engine 1 independently;

the power flow in the engine direct drive mode III is as follows: engine 1- > third clutch 7- > first clutch 8- > first input shaft 4- > three-gear driving gear 231- > three-gear driven gear 232- > first synchronizer 10- > output shaft 6- > main reduction driving gear 12- > main reduction driven gear 13- > differential 14- > wheel.

The hybrid power system has three engine direct-drive modes, and when the automobile is at a medium/high speed, the hybrid power system is efficiently switched into the engine direct-drive mode, so that a high-efficiency area of the engine 1 covers the medium/high speed, a series-parallel range-extending mode is avoided under the medium/high speed, the energy conversion loss is avoided, and the energy efficiency is ensured.

2) The hybrid power system has three pure electric modes, namely a pure electric mode I, a pure electric mode II and a pure electric mode III.

21) Pure electric mode one

The third clutch 7 is disconnected, the first clutch 8 is connected, the first synchronizer 10 is connected with a first gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps neutral, the engine 1 is closed, the first motor 2 is closed, and the second motor 3 is opened to establish a pure electric mode I; the mode is a first gear mode under the pure electric mode, and wheels are driven by the second motor 3 independently;

the power flow in the first pure electric mode is as follows: the second electric machine 3- > the first clutch 8- > the first input shaft 4- > the first gear driving gear 211- > the first gear driven gear 212- > the first synchronizer 10- > the output shaft 6- > the main reducing driving gear 12- > the main reducing driven gear 13- > the differential 14- > the wheel.

22) Pure electric mode two

The third clutch 7 is disconnected, the first clutch 8 is disconnected, the first synchronizer 10 keeps a neutral gear, the second clutch 9 is combined, the second synchronizer 11 is combined with the second gear pair, the engine 1 is closed, the first motor 2 is closed, and the second motor 3 is opened to establish a pure electric mode II; the mode is a two-gear mode in the pure electric mode, and wheels are driven by the second motor 3 independently;

the power flow in the pure electric mode two is as follows: the second motor 3- > the second clutch 9- > the second input shaft 5- > the second gear driving gear 221- > the second synchronizer 11- > the main reducing driving gear 12- > the main reducing driven gear 13- > the differential 14- > wheel.

23) Pure electric mode three

The third clutch 7 is disconnected, the first clutch 8 is connected, the first synchronizer 10 is connected with the third-gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps neutral, the engine 1 is closed, the first motor 2 is closed, and the second motor 3 is opened to establish a pure electric mode III; the mode is a three-gear mode under the pure electric mode, and wheels are driven by the second motor 3 independently;

the power flow in the pure electric mode three is as follows: the second electric machine 3- > the first clutch 8- > the first input shaft 4- > the third gear driving gear 231- > the third gear driven gear 232- > the first synchronizer 10- > the output shaft 6- > the main reducing driving gear 12- > the main reducing driven gear 13- > the differential 14- > wheel.

The hybrid power system has three pure electric modes, so that pure electric power is ensured, and the second motor 3 is always in a high-efficiency operation interval.

3) The hybrid power system is provided with nine parallel-parallel connection driving modes which are a parallel-parallel connection driving mode I, a parallel-parallel connection driving mode II, a parallel-parallel connection driving mode III, a parallel-parallel connection driving mode IV, a parallel-parallel connection driving mode V, a parallel-parallel connection driving mode VI, a parallel-parallel connection driving mode VII, a parallel-parallel connection driving mode VIII and a parallel-parallel connection driving mode VII.

31) Parallel-serial driving mode one

The third clutch 7 is combined, the first clutch 8 is combined, the first synchronizer 10 is combined with a first gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps neutral, the engine 1 is started, the first motor 2 is closed, and the second motor 3 is started to establish a parallel-series driving mode I; the mode is a first gear mode under a parallel-series driving mode in which the engine 1 and the second motor 3 are driven together;

and power flow 1 in parallel-series driving mode one: the engine 1- > the third clutch 7- > the first clutch 8- > the first input shaft 4- > the first gear driving gear 211- > the first gear driven gear 212- > the first synchronizer 10- > the output shaft 6- > the main reduction driving gear 12- > the main reduction driven gear 13- > the differential 14- > wheel;

power flow 2: the second electric machine 3- > the first clutch 8- > the first input shaft 4- > the first gear driving gear 211- > the first gear driven gear 212- > the first synchronizer 10- > the output shaft 6- > the main reducing driving gear 12- > the main reducing driven gear 13- > the differential 14- > the wheel.

32) Parallel-series driving mode two

The third clutch 7 is combined, the first clutch 8 is disconnected, the first synchronizer 10 keeps a neutral gear, the second clutch 9 is combined, the second synchronizer 11 is combined with the second gear pair, the engine 1 is started, the first motor 2 is closed, and the second motor 3 is started, so that a parallel-series driving mode II is established; the mode is a second gear mode in a parallel-series driving mode in which the engine 1 and the second motor 3 are driven together;

and power flow 1 in parallel-series driving mode two: engine 1- > third clutch 7- > second clutch 9- > second input shaft 5- > second driving gear 221- > second driven gear 222- > second synchronizer 11- > output shaft 6- > main reducing driving gear 12- > main reducing driven gear 13- > differential 14-;

power flow 2: the second motor 3- > the second clutch 9- > the second input shaft 5- > the second gear driving gear 221- > the second synchronizer 11- > the main reducing driving gear 12- > the main reducing driven gear 13- > the differential 14- > wheel.

33) Parallel-series driving mode III

The third clutch 7 is combined, the first clutch 8 is combined, the first synchronizer 10 is combined with the third-gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps neutral, the engine 1 is started, the first motor 2 is closed, and the second motor 3 is started, so that a parallel-series driving mode III is established; the mode is a three-gear mode under a parallel-series driving mode in which the engine 1 and the second motor 3 are driven together;

and power flow 1 in parallel-series driving mode three: the engine 1- > the third clutch 7- > the first clutch 8- > the first input shaft 4- > the three-gear driving gear 231- > the three-gear driven gear 232- > the first synchronizer 10- > the output shaft 6- > the main reduction driving gear 12- > the main reduction driven gear 13- > the differential 14- > wheel;

power flow 2: the second electric machine 3- > the first clutch 8- > the first input shaft 4- > the third gear driving gear 231- > the third gear driven gear 232- > the first synchronizer 10- > the output shaft 6- > the main reducing driving gear 12- > the main reducing driven gear 13- > the differential 14- > wheel.

34) Parallel-series driving mode four

The third clutch 7 is combined, the first clutch 8 is combined, the first synchronizer 10 is combined with a first gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps neutral, the engine 1 is started, the first motor 2 is started, and the second motor 3 is closed, so that a parallel-series driving mode IV is established; the mode is a first gear mode under a parallel-series driving mode in which the engine 1 and the first motor 2 are driven together;

and power flow 1 in parallel-series driving mode four: the engine 1- > the third clutch 7- > the first clutch 8- > the first input shaft 4- > the first gear driving gear 211- > the first gear driven gear 212- > the first synchronizer 10- > the output shaft 6- > the main reduction driving gear 12- > the main reduction driven gear 13- > the differential 14- > wheel;

power flow 2: the first motor 2- > speed-increasing driven gear 152- > speed-increasing driving gear 151- > third clutch 7- > first clutch 8- > first input shaft 4- > first gear driving gear 211- > first gear driven gear 212- > first synchronizer 10- > output shaft 6- > main reducing driving gear 12- > main reducing driven gear 13- > differential 14- > wheel.

35) Parallel-series driving mode five

The third clutch 7 is combined, the first clutch 8 is disconnected, the first synchronizer 10 keeps a neutral gear, the second clutch 9 is combined, the second synchronizer 11 is combined with the second gear pair, the engine 1 is started, the first motor 2 is started, and the second motor 3 is closed, so that a parallel-series driving mode V is established; the mode is a second gear mode under a parallel-series driving mode in which the engine 1 and the first motor 2 are driven together;

and power flow 1 in parallel-series driving mode five: engine 1- > third clutch 7- > second clutch 9- > second input shaft 5- > second driving gear 221- > second driven gear 222- > second synchronizer 11- > output shaft 6- > main reducing driving gear 12- > main reducing driven gear 13- > differential 14-;

power flow 2: the first motor 2- > the speed-increasing driven gear 152- > the speed-increasing driving gear 151- > the third clutch 7- > the second clutch 9- > the second input shaft 5- > the second driving gear 221- > the second driven gear 222- > the second synchronizer 11- > the output shaft 6- > the main reducing driving gear 12- > the main reducing driven gear 13- > the differential 14- > wheel.

36) Parallel-series driving mode six

The third clutch 7 is combined, the first clutch 8 is combined, the first synchronizer 10 is combined with the third-gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps neutral, the engine 1 is started, the first motor 2 is started, and the second motor 3 is closed, so that a parallel-series driving mode six is established; the mode is a three-gear mode under a parallel-series driving mode in which the engine 1 and the first motor 2 are driven together;

and power flow 1 in parallel-series driving mode six: engine 1- > third clutch 7- > first clutch 8- > first input shaft 4- > three-gear driving gear 231- > three-gear driven gear 232- > first synchronizer 10- > output shaft 6- > main reduction driving gear 12- > main reduction driven gear 13- > differential 14-;

power flow 2: the first motor 2- > speed-increasing driven gear 152- > speed-increasing driving gear 151- > third clutch 7- > first clutch 8- > first input shaft 4- > three-gear driving gear 231- > three-gear driven gear 232- > first synchronizer 10- > output shaft 6- > main reducing driving gear 12- > main reducing driven gear 13- > differential 14- > wheel.

37) Parallel-series driving mode seven

The third clutch 7 is combined, the first clutch 8 is combined, the first synchronizer 10 is combined with a first gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps neutral, the engine 1 is started, the first motor 2 is started, and the second motor 3 is started, so that a parallel-series driving mode seven is established; the mode is a first gear mode under a parallel-series driving mode in which the engine 1, the first motor 2 and the second motor 3 are driven together;

and power flow 1 in the parallel-series driving mode seven: the engine 1- > the third clutch 7- > the first clutch 8- > the first input shaft 4- > the first gear driving gear 211- > the first gear driven gear 212- > the first synchronizer 10- > the output shaft 6- > the main reduction driving gear 12- > the main reduction driven gear 13- > the differential 14- > wheel;

power flow 2: the first motor 2- > the speed-increasing driven gear 152- > the speed-increasing driving gear 151- > the third clutch 7- > the first clutch 8- > the first input shaft 4- > the first gear driving gear 211- > the first gear driven gear 212- > the first synchronizer 10- > the output shaft 6- > the main reducing driving gear 12- > the main reducing driven gear 13- > the differential 14-;

power flow 3: the second electric machine 3- > the first clutch 8- > the first input shaft 4- > a driving gear 211- > a driven gear 212- > a first synchronizer 10- > the output shaft 6- > the driving reduction driving gear 12- > the driving reduction driven gear 13- > the differential mechanism 14- > the wheels.

38) Parallel-series driving mode eight

The third clutch 7 is combined, the first clutch 8 is disconnected, the first synchronizer 10 keeps a neutral gear, the second clutch 9 is combined, the second synchronizer 11 is combined with the second gear pair, the engine 1 is started, the first motor 2 is started, and the second motor 3 is started, so that a parallel-series driving mode eight is established; the mode is a second gear mode under a parallel-series driving mode in which the engine 1, the first motor 2 and the second motor 3 are driven together;

and power flow 1 in parallel-series driving mode eight: engine 1- > third clutch 7- > second clutch 9- > second input shaft 5- > second driving gear 221- > second driven gear 222- > second synchronizer 11- > output shaft 6- > main reducing driving gear 12- > main reducing driven gear 13- > differential 14-;

power flow 2: the first motor 2- > the speed-increasing driven gear 152- > the speed-increasing driving gear 151- > the third clutch 7- > the second clutch 9- > the second input shaft 5- > the second driving gear 221- > the second driven gear 222- > the second synchronizer 11- > the output shaft 6- > the main reducing driving gear 12- > the main reducing driven gear 13- > the differential 14-;

power flow 3: the second motor 3- > the second clutch 9- > the second input shaft 5- > the second gear driving gear 221- > the second synchronizer 11- > the main reducing driving gear 12- > the main reducing driven gear 13- > the differential 14- > wheel.

39) Parallel-series driving mode nine

The third clutch 7 is combined, the first clutch 8 is combined, the first synchronizer 10 is combined with the third-gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps neutral, the engine 1 is started, the first motor 2 is started, and the second motor 3 is started, so that a parallel-series driving mode nine is established; the mode is a three-gear mode under a parallel-series driving mode in which the engine 1, the first motor 2 and the second motor 3 are driven together;

and power flow 1 in parallel-series driving mode nine: the engine 1- > the third clutch 7- > the first clutch 8- > the first input shaft 4- > the three-gear driving gear 231- > the three-gear driven gear 232- > the first synchronizer 10- > the output shaft 6- > the main reduction driving gear 12- > the main reduction driven gear 13- > the differential 14- > wheel;

power flow 2: the first motor 2- > the speed-increasing driven gear 152- > the speed-increasing driving gear 151- > the third clutch 7- > the first clutch 8- > the first input shaft 4- > the three-gear driving gear 231- > the three-gear driven gear 232- > the first synchronizer 10- > the output shaft 6- > the main reducing driving gear 12- > the main reducing driven gear 13- > the differential 14-;

power flow 3: the second electric machine 3- > the first clutch 8- > the first input shaft 4- > the third gear driving gear 231- > the third gear driven gear 232- > the first synchronizer 10- > the output shaft 6- > the main reducing driving gear 12- > the main reducing driven gear 13- > the differential 14- > wheel.

The hybrid power system has nine parallel-parallel driving modes, and when the automobile is at a medium/high speed, the parallel-parallel driving mode can be efficiently switched in, so that the automobile has strong dynamic property, and a series range extending mode is avoided being used at the medium/high speed, thereby avoiding energy conversion loss and ensuring energy high efficiency; the parallel torque adjustment of the multiple engine gears and the motor enables the high-efficiency section of the engine 1 to cover all medium/high vehicle speed working conditions of automobile running, and the combination selection of the multiple gears of the motor also ensures that the motor works in the high-efficiency section, so that the automobile has excellent economic performance.

4) The hybrid power system has three series-parallel range-extending modes, namely a series-parallel range-extending mode I, a series-parallel range-extending mode II and a series-parallel range-extending mode III.

41) Series-parallel range-extending mode one

The third clutch 7 is disconnected, the first clutch 8 is combined, the first synchronizer 10 is combined with a first gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps a neutral gear, the engine 1 is started, the first motor 2 generates power, and the second motor 3 is started to establish a series-parallel range-extending mode I; the mode is a first gear mode in a series-parallel range-extending mode, the engine 1 drives the first motor 2 to generate power, and the second motor 3 drives wheels independently;

the power flow in the series-parallel range-extending mode one is as follows: engine 1- > speed-increasing driving gear 151- > speed-increasing driven gear 152- > first motor 2- > second motor 3- > first clutch 8- > first input shaft 4- > first gear driving gear 211- > first synchronizer 10- > first gear driven gear 212- > main reducing driving gear 12- > main reducing driven gear 13- > differential 14- > wheel.

42) Series-parallel connection range-extending mode two

The third clutch 7 is disconnected, the first clutch 8 is disconnected, the first synchronizer 10 keeps a neutral gear, the second clutch 9 is combined, the second synchronizer 11 is combined with the second gear pair, the engine 1 is started, the first motor 2 generates power, and the second motor 3 is started to establish a series-parallel range-extending mode II; the mode is a second gear mode in a series-parallel range-extending mode, and wheels are driven by the second motor 3 independently;

the power flow in the series-parallel range-extending mode two is as follows: engine 1- > speed-increasing driving gear 151- > speed-increasing driven gear 152- > first motor 2- > second motor 3- > second clutch 9- > second input shaft 5- > second driving gear 221- > second driven gear 222- > second synchronizer 11- > output shaft 6- > main reducing driving gear 12- > main reducing driven gear 13- > differential 14- > wheel.

43) Series-parallel extended range mode III

The third clutch 7 is disconnected, the first clutch 8 is combined, the first synchronizer 10 is combined with the third-gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps a neutral gear, the engine 1 is started, the first motor 2 generates power, and the second motor 3 is started to establish a series-parallel range-extending mode III; the mode is a three-gear mode in a series-parallel range-extending mode, and wheels are driven by the second motor 3 independently;

the power flow in the series-parallel range-extending mode three is as follows: engine 1- > speed-increasing driving gear 151- > speed-increasing driven gear 152- > first motor 2- > second motor 3- > first clutch 8- > first input shaft 4- > three-gear driving gear 231- > three-gear driven gear 232- > first synchronizer 10- > main reducing driving gear 12- > main reducing driven gear 13- > differential 14- > wheel.

The hybrid power system has three series-parallel range-extending modes, one mode can be used for low-speed urban working conditions, and the other two modes are used for medium-high-speed cruise feed charging or high-efficiency PHEV range expansion.

5) The hybrid power system has three braking energy recovery modes, namely a braking energy recovery mode I, a braking energy recovery mode II and a braking energy recovery mode III.

51) Braking energy recovery mode one

The third clutch 7 is disconnected, the first clutch 8 is combined, the first synchronizer 10 is combined with a first gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps neutral, the engine 1 is closed, the first motor 2 is closed, and the second motor 3 generates electricity to establish a first braking energy recovery mode; the mode is a first-gear mode of single-power countercurrent generation of the second motor 3;

the power flow in the first braking energy recovery mode is as follows: the wheel- > differential 14- > driving reduction driven gear 13- > driving reduction driving gear 12- > output shaft 6- > first synchronizer 10- > first gear driven gear 212- > first gear driving gear 211- > first input shaft 4- > first clutch 8- > second motor 3.

52) Braking energy recovery mode two

The third clutch 7 is disconnected, the first clutch 8 is disconnected, the first synchronizer 10 keeps a neutral gear, the second clutch 9 is combined, the second synchronizer 11 is combined with the second gear pair, the engine 1 is closed, the first motor 2 is closed, and the second motor 3 generates electricity to establish a braking energy recovery mode II; the mode is a second-gear mode of single-power countercurrent generation of the second motor 3;

the power flow in the braking energy recovery mode two is as follows: the wheel- > differential 14- > main reduction driven gear 13- > main reduction driving gear 12- > output shaft 6- > second synchronizer 11- > second reduction driven gear 222- > second reduction driving gear 221- > second input shaft 5- > second clutch 9- > second motor 3.

53) Braking energy recovery mode three

The third clutch 7 is disconnected, the first clutch 8 is combined, the first synchronizer 10 is combined with the third gear pair, the second clutch 9 is disconnected, the second synchronizer 11 keeps neutral, the engine 1 is closed, the first motor 2 is closed, and the second motor 3 generates electricity to establish a braking energy recovery mode III; the mode is a third-gear mode of single-power countercurrent generation of the second motor 3;

the power flow in the braking energy recovery mode three is as follows: the wheel- > differential 14- > driving reduction driven gear 13- > driving reduction driving gear 12- > output shaft 6- > first synchronizer 10- > three-gear driven gear 232- > three-gear driving gear 231- > first input shaft 4- > first clutch 8- > second motor 3.

The hybrid power system has three braking energy recovery modes, and the combination selection of a plurality of gears of the motor can ensure that the motor is always in a high-efficiency operation range.

6) The hybrid power system has two parking power generation modes, namely a parking power generation mode I and a parking power generation mode II.

61) Parking power generation mode one

The third clutch 7 is disconnected, the first clutch 8 and the second clutch 9 are disconnected, the first synchronizer 10 and the second synchronizer 11 are kept in neutral, the engine 1 is started, the first motor 2 generates power, and the second motor 3 is stopped, so as to establish a parking power generation mode I which is characterized in that the engine 1 drives the first motor 2 to generate power alone;

the power flow in the first parking power generation mode is as follows: the engine 1- > speed-increasing driving gear 151- > speed-increasing driven gear 152- > first motor 2- > power battery.

62) Parking power generation mode two

The third clutch 7 is engaged, the first clutch 8 and the second clutch 9 are disconnected, the first synchronizer 10 and the second synchronizer 11 are kept in neutral, the engine 1 is started, the first motor 2 generates power, the second motor 3 generates power, so as to establish a parking power generation mode two, and the engine 1 drives the first motor 2 and the second motor 3 to simultaneously generate power;

the power flow 1 in the parking power generation mode two is as follows: the engine 1- > the speed-increasing driving gear 151- > the speed-increasing driven gear 152- > the first motor 2- > the power battery;

the power flow 2 is: the engine 1- > the third clutch 7- > the second electric machine 3- > the power battery.

Through the combination or disconnection of the third clutch 7, two parking power generation functions can be realized, when the SOC of the power battery is low, the power battery can be charged under the working conditions similar to traffic lights, or the electric air conditioner of the automobile is not disconnected.

This application is equipped with the preferred hybrid power system that a keep off gear pair, keep off gear pair and third gear pair has following advantage:

the three clutches, the two synchronizers and the five gear planes are used for realizing the different working modes, the structure is simple, the space is compact, and the arrangement in the front cabin of the passenger car with very limited design space is easy;

through the control of the engine 1, the motor, the clutch and the synchronizer, the different working modes under the common working conditions of the automobile can be realized, the requirements on the performance of single parts of the engine 1, the first motor 2 and the second motor 3 are reduced under the condition that the integration performance is ensured to be met, and the cost is lower; meanwhile, the engine 1, the first motor 2 and the second motor 3 can work in a high-efficiency range, and excellent fuel economy is achieved;

through the coordinated control of the sliding friction opening and closing of the three clutches and the rotating speed and the torque of the motor, the unpowered interruption switching among different working modes is realized, the dynamic property and the economical efficiency of the automobile are comprehensively improved, and the automobile has good driving comfort.

On the basis of a traditional wet-type double-clutch speed change system, the first motor 2, the second motor 3 and the third clutch 7 are added to form a three-clutch hybrid power system, design experience and manufacturing resources of the traditional wet-type double-clutch speed change system are fully utilized, the development period is effectively shortened, and research, development and manufacturing costs are reduced.

This application is equipped with one simultaneously and keeps off the gear pair and keep off the gear pair, perhaps is equipped with one simultaneously and keeps off the gear pair, two keep off the gear pair, three keep off the gear pair and four keep off the vice hybrid power system's of gear mode and effect, is similar with aforementioned hybrid power system who is equipped with one simultaneously and keeps off the gear pair, two keep off the gear pair and three keep off the gear pair, only reduce the mode and the control that three keep off and correspond correspondingly, or increase the mode and the control that four keep off and correspond correspondingly, no longer gives unnecessary details here.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (13)

1. A hybrid power system is characterized by comprising an engine, a first motor, a second motor, a connecting shaft, a clutch assembly, a first input shaft, a second input shaft, an output shaft and a gear transmission assembly, wherein the clutch assembly comprises a first clutch, a second clutch and a third clutch;

the engine is connected with the connecting shaft, the connecting shaft is connected with the third clutch, the third clutch is connected with the second motor, the second motor is respectively connected with the first clutch and the second clutch, the first clutch is connected with the first input shaft, and the second clutch is connected with the second input shaft; the gear transmission assembly is connected among the first input shaft, the second input shaft and the output shaft;

the first motor is connected with the connecting shaft.

2. The hybrid system of claim 1, wherein the second input shaft is free-running outside the first input shaft.

3. The hybrid system according to claim 2, wherein the range transmission assembly includes a first range gear pair, a second range gear pair, a first synchronizer, and a second synchronizer, the first range gear pair being coupled between the first input shaft and the output shaft via the first synchronizer, the second range gear pair being coupled between the second input shaft and the output shaft via the second synchronizer.

4. The hybrid powertrain system of claim 3, wherein the gear transmission assembly further includes a third gear pair coupled between the first input shaft and the output shaft via the first synchronizer.

5. The hybrid system according to claim 4, wherein the first-speed gear pair includes a first-speed driving gear provided on the first input shaft and a first-speed driven gear provided on the output shaft, the first-speed driving gear being connected to the first-speed driven gear;

the second gear pair comprises a second driving gear arranged on the second input shaft and a second driven gear arranged on the output shaft, and the second driving gear is connected with the second driven gear;

the third gear pair comprises a third gear driving gear arranged on the first input shaft and a third gear driven gear arranged on the output shaft, and the third gear driving gear is connected with the third gear driven gear.

6. The hybrid system of claim 4, wherein the second gear set, the third gear set, and the first gear set are arranged in sequence in a direction away from the clutch assembly.

7. The hybrid system according to claim 6, wherein the gear transmission assembly further includes a four-gear pair coupled between the second input shaft and the output shaft via the second synchronizer, the four-gear pair including a four-gear drive gear provided on the second input shaft and a four-gear driven gear provided on the output shaft, the four-gear drive gear being connected to the four-gear driven gear.

8. The hybrid powertrain system of claim 7, wherein the fourth gear set is located between the second gear set and the third gear set.

9. The hybrid powertrain system of claim 1, wherein the clutch assembly further includes a clutch housing, the first clutch, the second clutch, and the third clutch all being connected to the clutch housing.

10. The hybrid powertrain system of claim 9, wherein the driving portion of the first clutch is connected to the clutch housing and the driven portion of the first clutch is connected to one end of the first input shaft;

the driving part of the second clutch is connected to the clutch shell, and the driven part of the second clutch is connected to one end of the second input shaft;

the driving part of the third clutch is connected to the connecting shaft, and the driven part of the third clutch is connected to the clutch shell.

11. The hybrid powertrain system of claim 9, wherein the second electric machine is secured to the clutch housing.

12. The hybrid system according to claim 1, wherein the first electric machine is connected to the connecting shaft through a transmission gear pair, and the transmission gear pair, the clutch assembly, and the gear transmission assembly are sequentially arranged in a direction away from the engine.

13. The hybrid system according to claim 1, wherein the first electric machine is provided on a housing of a transmission or on a cylinder block of the engine;

the second motor is arranged at the front end of the shell of the transmission.

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