CN107061674A

CN107061674A - A kind of electric differential mechanism with torque fixed direction allocation function

Info

Publication number: CN107061674A
Application number: CN201710265583.4A
Authority: CN
Inventors: 王军年; 杨斌
Original assignee: Jilin University
Current assignee: Jilin University
Priority date: 2017-04-21
Filing date: 2017-04-21
Publication date: 2017-08-18
Anticipated expiration: 2037-04-21
Also published as: CN107061674B

Abstract

The invention discloses a kind of electric differential mechanism with torque fixed direction allocation function, including：Main driving mechanism；Bevel differential；TV controls drive mechanism, for output control power；First single epicyclic train, the first sun gear is fixedly and coaxially connected with the first semiaxis, and the first planet carrier is connected with control output end；Second single epicyclic train, the second planet carrier is scheduled on driving axle housing, and the second gear ring is fixedly connected with the first gear ring；Second sun gear is by bearings on the first semiaxis；3rd single epicyclic train, the 3rd sun gear is fixedly connected with the second sun gear, and the third line carrier is fixedly connected with the first semiaxis, and the 3rd gear ring is fixedly connected with differential carrier；Wherein, the second single epicyclic train and the first single epicyclic train have identical characteristic parameter.Left and right sides wheel can be assigned to the invention enables the driving torque of automobile according to what the demand for control of control logic was oriented.

Description

A kind of electric differential mechanism with torque fixed direction allocation function

Technical field

It is more particularly to a kind of electronic with torque fixed direction allocation function the invention belongs to technical field of electric vehicle transmission Differential mechanism.

Background technology

Increasingly attention due to energy crisis and to environmental protection, new-energy automobile is that the development of future automobile is reverse, its Middle electric automobile even more worldwide obtains fast development.Compared to traditional combustion engine automobile, electric automobile has more preferable Economy and the feature of environmental protection, cause the characteristics of near zero-emission electric automobile that there is significant advantage in terms of environmental protection.Together When, electric automobile is because the response of motor is fast, low-speed big the features such as there is more preferable acceleration, motor speed, Torque is easily obtained, and electric automobile more accurately can be controlled.Therefore, electric automobile has great development potentiality.

Power assembly or be made up of motor, speed changer and drive axle that electric automobile is typically constituted using motor and drive axle Power assembly drive vehicle to travel, the electric automobile of In-wheel motor driving is because unsprung mass is big, wheel hub motor weak heat-dissipating The shortcomings of do not contain drive axle mostly in scale of mass production, therefore the power assembly of existing electric automobile.

Differential mechanism is the important component in drive axle, due to differential mechanism " differential is not poor to be turned round " principle, the driving torque of automobile Can only equal distribution in left and right wheelses both sides, just can not be attached using ground well so in the case where road surface attachment is unequal Put forth effort, or even easily cause in low attachment side the unstable period such as trackslip of wheel, it is impossible to play the adhesive ability of driving wheel.Together When, the situation that load is transferred to outboard wheels by inboard wheel can occur when being turned due to vehicle high-speed, even in ground attachment In the case of good, the adhesive ability that will also result in outboard wheels is higher than inboard wheel, and now conventional carrier etc. divides moment of torsion extremely Interior outboard wheels are then likely to result in inboard wheel and reach that limit of adhesion generation is trackslipped, and make automobile unstability.If by inboard wheel Partial torque is transferred to outboard wheels, then can increase the side force nargin of inboard wheel, prevents wheel slip, and can be right Vehicle produces an additional yaw moment, and the torque can help to promote and guide turn inside diameter, improve turn inside diameter machine Dynamic property and limit cornering ability.At present, the technology is that some high end motions are applied in the form of torque fixed direction allocation differential mechanism In type car and top grade SUV, such as super four-wheel drive system (SH-AWD) and the super active yaw control system of Mitsubishi of Honda (SAYC) etc., but the technology but not excessive application on electric automobile.

The content of the invention

Carried present invention aim to address the equal defect that can not be adjusted of differential mechanism or so output torque there is provided one kind The electric differential mechanism of torque fixed direction allocation function.

The technical scheme that the present invention is provided is：

A kind of electric differential mechanism with torque fixed direction allocation function, including：

Main driving mechanism, it is arranged on differential mechanism side, its output end connected with differential housing, can pass rotary power It is delivered to differential casing, driving vehicle traveling；

TV controls drive mechanism, and it is arranged on the opposite side of the differential mechanism, for output torque distribution control power；

First single epicyclic train, it includes the first sun gear, the first planetary gear, the first planet carrier and the first tooth Circle, first sun gear is fixedly and coaxially connected with the first semiaxis, and first planet carrier controls the output of drive mechanism with TV End connection；

Second single epicyclic train, it includes the second sun gear, the second planetary gear, the second planet carrier and the second tooth Circle, second planet carrier is fixed on driving axle housing, and the second gear ring is fixedly connected with the first gear ring；Second sun gear is rotatable Be supported on the first semiaxis；

3rd single epicyclic train, it includes the 3rd sun gear, the third line star-wheel, the third line carrier and the 3rd tooth Circle, the 3rd sun gear is fixedly connected with the second sun gear, and the 3rd sun gear is rotatably supported on the first semiaxis, and the 3rd Planet carrier is fixedly connected with the first semiaxis, and the 3rd gear ring is fixedly connected with differential carrier；

Wherein, the second single epicyclic train and the first single epicyclic train have identical characteristic parameter.

Preferably, the TV controls drive mechanism includes TV controlled motors and TV reducing gears.

Preferably, the TV controlled motors have hollow output shaft, and first semiaxis is rotatably supported at described Hollow output shaft, and passed from hollow output shaft.

Preferably, the TV reducing gears include：

4th single epicyclic train, it includes the 4th sun gear, fourth line star-wheel, fourth line carrier and the 4th tooth Circle, the 4th sun gear is fixedly connected with hollow output shaft, and the 4th gear ring is fixed on driving axle housing；

5th single epicyclic train, it includes the 5th sun gear, fifth line star-wheel, fifth line carrier and the 5th tooth Circle, the 5th sun gear is fixedly connected with fourth line carrier, and the 5th gear ring is fixed on driving axle housing, the fifth line Carrier is connected as control output end with the first planet carrier.

Preferably, the main driving mechanism includes main drive motor and main gear reducer structure.

Preferably, the main drive motor has hollow output shaft, and second semiaxis is rotatably supported at described Hollow output shaft, and passed from hollow output shaft.

Preferably, the main gear reducer structure includes：

7th single epicyclic train, it includes the 7th sun gear, the 7th planetary gear, the 7th planet carrier and the 7th tooth Circle, the 7th sun gear is fixedly connected with main drive motor output shaft, and the 7th gear ring is fixed on driving axle housing；

6th single epicyclic train, it includes the 6th sun gear, the 6th planetary gear, the 6th planet carrier and the 6th tooth Circle, the 6th sun gear is fixedly connected with the 7th planet carrier, and the 6th gear ring is fixed on driving axle housing, the 6th row Carrier is fixedly connected with differential carrier.

First single double pinions system, it include the first sun gear, the first two-stage planet wheel, the first planet carrier and First gear ring, first sun gear is fixedly and coaxially connected with the first semiaxis, and first planet carrier controls drive mechanism with TV Output end connection；

Second single double pinions system, it include the second sun gear, the second row twin-stage star-wheel, the second planet carrier and Second gear ring, second planet carrier is fixed on driving axle housing, and the second gear ring is fixedly connected with the first gear ring；Second sun gear It is rotatably supported on the first semiaxis；

3rd single double pinions system, it include the 3rd sun gear, the 3rd two-stage planet wheel, the third line carrier and 3rd gear ring, the 3rd sun gear is fixedly connected with the second sun gear, and the 3rd sun gear is rotatably supported at the first semiaxis On, the third line carrier is fixedly connected with the first semiaxis, and the 3rd gear ring is fixedly connected with differential carrier；

Second single double pinions system, it include the second sun gear, the second two-stage planet wheel, the second planet carrier and Second gear ring, second planet carrier is fixed on driving axle housing, and the second gear ring is fixedly connected with the first gear ring；Second sun gear It is rotatably supported on the first semiaxis；

Beneficial effects of the present invention are embodied in the following aspects：

1st, the electric differential mechanism with torque fixed direction allocation function that the present invention is provided, solves differential in conventional ADS driving bridge The drawbacks of device " differential is not poor to be turned round " so that the driving torque of automobile can be according to being assigned to that the demand for control of control logic is oriented Left and right sides wheel, the work(of left and right sides wheel torque unequal distribution is realized on the premise of the total driving torque in longitudinal direction is not changed Can, improve the turning mobility and Driving of vehicle.

2nd, the electric differential mechanism with torque fixed direction allocation function that the present invention is provided, TV controlled motors and main drive motor Coaxially arranged, structure is compacter, reduces arrangement space.

3rd, the electric differential mechanism with torque fixed direction allocation function that the present invention is provided, belongs to sprung mass, therefore will not Unsprung mass is dramatically increased as wheel hub motor, ride comfort influence is small during on running car.

Brief description of the drawings

Fig. 1 carries the structural representation of torque fixed direction allocation functional electric differential mechanism embodiment one to be of the present invention.

Fig. 2 carries the structural representation of torque fixed direction allocation functional electric differential mechanism embodiment two to be of the present invention.

Fig. 3 carries the structural representation of torque fixed direction allocation functional electric differential mechanism embodiment three to be of the present invention.

Fig. 4 carries torque fixed direction allocation functional electric differential mechanism example IV structural representation to be of the present invention.

Fig. 5 is the torque flow direction of the present invention with torque fixed direction allocation functional electric differential mechanism when automobile is kept straight on Schematic diagram.

Fig. 6 carries torque of the torque fixed direction allocation functional electric differential mechanism in automobile normal turn to be of the present invention Flow to schematic diagram.

Fig. 7 turns left and torque orientation to be of the present invention with torque fixed direction allocation functional electric differential mechanism in automobile Torque when distributor works flows to schematic diagram.

Fig. 8 turns right and torque orientation to be of the present invention with torque fixed direction allocation functional electric differential mechanism in automobile Torque when distributor works flows to schematic diagram.

Embodiment

The present invention is described in further detail below in conjunction with the accompanying drawings, to make those skilled in the art with reference to specification text Word can be implemented according to this.

Embodiment one

As shown in figure 1, the invention provides a kind of electric differential mechanism with torque distribution function, mainly being oriented by torque Distributor 2000, traditional bevel differential 1400, main drive motor reducing gear 1500 and main drive motor 1002 are constituted.

In the present embodiment, the torque fixed direction allocation device 2000 be located at drive axle on the left of (also can and main drive motor 1002 reversing of position, are arranged on the right side of drive axle), mainly by TV controlled motors 1001, TV reducing gears 1100, double-planet Row TV coupling mechanisms 1200 and single planetary row differential mechanism coupling mechanism 1300 are constituted.

The TV controlled motors 1001 are a cartridge type inner rotor motors, connect the first semiaxis 1402 of left side wheel Passed from its hollow rotor shafts endoporus, cartridge type internal rotor is connected with the spline of sun gear 1014 of fourth planet train 1010, The output torque of TV controlled motors 1001 is inputted to fourth planet train 1010.The TV controlled motors 1001 pass through bearing branch Support is on the first semiaxis 1402, and its stator and its housing are fixed with driving axle housing.

The TV reducing gears 1100 mainly include fourth planet train 1010 and fifth line star wheel series 1020.Described 4th Planetary gear train 1010 includes sun gear 1014, the planetary gear 1012 of three circumference uniform distributions, planet carrier 1013 and is fixed on driving Ring gear 1011 on axle housing.Wherein sun gear 1014 is connected with the cartridge type internal rotor spline of TV controlled motors 1001, OK Carrier 1013 and the sun gear 1024 of fifth line star wheel series 1020 are integrated.The fifth line star wheel series 1020 include sun gear 1024th, the planetary gear 1022 of three circumference uniform distributions, planet carrier 1023 and the ring gear 1021 being fixed on driving axle housing.Wherein Sun gear 1024 by bearings on the first semiaxis 1402, the planet carrier of the planetary gear train 1030 of planet carrier 1023 and first 1033 are integrated.

Preferably TV reducing gears 1100 can by single planetary gear train, multiple rows of planetary gear train or other forms reductor Structure is constituted, therefore the form of conversion reducing gear 1100 is not regarded as the innovation to the present invention.

The double planet wheel rows of mixing TV coupling mechanisms 1200 mainly include the first planetary gear train 1030 and the second planetary gear train 1040, Their planet row characteristic parameter must be identical, and the type of planet row must be consistent.First planetary gear train 1030 is included too Planetary gear 1032, planet carrier 1033 and the ring gear 1031 of sun wheel 1034, three circumference uniform distributions.Wherein planet carrier 1033 and the 5th The planet carrier 1023 of planetary gear train 1020 is integrated, and sun gear 1034 is connected with the spline of the first semiaxis 1402, ring gear 1031 with The ring gear 1041 of second planetary gear train 1040 is integrated.Second planetary gear train 1040 includes sun gear 1044, three circles Zhou Junbu planetary gear 1042, planet carrier 1043 and ring gear 1041.Wherein planet carrier 1043 is fixed on driving axle housing, the sun Wheel 1044 and the sun gear 1054 of third planet train 1050 are integrated, and by bearings on the first semiaxis 1402, it is interior Gear ring 1041 is integrated with the first ring gear 1031.

The single planetary row differential mechanism coupling mechanism 1300 is mainly made up of third planet train 1050.The third planet Train 1050 includes planetary gear 1052, the planet carrier 1053 of sun gear 1054, three circumference uniform distributions, and with differential carrier 1401 The ring gear 1051 being integrated.Wherein sun gear 1054 is integrated with the second planet carrier 1043, and by bearings first On semiaxis 1402, planet carrier 1053 is connected with the spline of the first semiaxis 1402.

Traditional bevel differential 1400 it is main by differential carrier 1401, the first semiaxis 1402, the second semiaxis 1403, First axle shaft gear 1404, the second axle shaft gear 1405, two cone planetary gears 1406 and 1407, the structures of planetary gear shaft 1408 Into.Wherein the first axle shaft gear 1404 is connected with the spline of the first semiaxis 1402, the second axle shaft gear 1405 and the second semiaxis 1403 Spline is connected, and differential carrier 1401 is by bearings on the second semiaxis 1403.

The main drive motor reducing gear 1500 is located at the right side of drive axle, mainly by the 6th planetary gear train 1060 and the Seven planetary gear trains 1070 are constituted.6th planetary gear train 1060 includes the planetary gear of sun gear 1064, three circumference uniform distributions 1062nd, planet carrier 1063 and the ring gear 1061 being fixed on driving axle housing.Wherein planet carrier 1063 is with differential carrier 1401 One, the planet carrier 1073 of sun gear 1064 and the 7th planetary gear train 1070 is integrated, and sun gear 1064 is existed by bearings On second semiaxis 1403.The 7th seniority among brothers and sisters star wheel series 1070 include sun gear 1074, the planetary gear 1072 of three circumference uniform distributions, Planet carrier 1073 and the ring gear 1071 being fixed on driving axle housing.Wherein sun gear 1074 and main drive motor 1002 is hollow Inner rotor shaft spline is connected.

Preferably main drive motor reducing gear 1500 can be by single planetary gear train, multiple rows of planetary gear train or other forms Reducing gear constitute, therefore the form of conversion main drive motor reducing gear 1500 is not regarded as the innovation to the present invention.

The main drive motor 1002 is located at the right side of drive axle, and it is a cartridge type inner rotor motor, and connection is right Second semiaxis 1403 of side wheel is passed from its hollow rotor shafts endoporus.Cartridge type internal rotor and the 7th planetary gear train 1070 The spline of sun gear 1074 is connected, and driving torque can be inputted main drive motor by sun gear 1074 and slowed down by main drive motor 1002 In mechanism 1500, and it is applied on differential carrier 1401, is finally distributed on the first semiaxis 1402 and the second semiaxis 1403.It is described Main drive motor 1002 is by bearings on the second semiaxis 1403, and its stator and its housing are fixed with driving axle housing.

Embodiment two

As shown in Fig. 2 in the present embodiment, the first planetary gear train 1030 and second in double planet wheel rows of mixing TV coupling mechanisms 1200 Planetary gear train 1040 is the third planet train 1050 in single planetary bevel gear planet row, single planetary row differential mechanism coupling mechanism 1300 For two-stage planet wheel planet row, structure diagram is as shown in the figure.

Embodiment three

As shown in figure 3, in the present embodiment, the first planetary gear train 1030 and second in double planet wheel rows of mixing TV coupling mechanisms 1200 Planetary gear train 1040 is the third planet train in two-stage planet wheel planet row, single planetary row differential mechanism coupling mechanism 1300 1050 be single planetary bevel gear planet row, and structure diagram is as shown in the figure.

Example IV,

As shown in figure 4, in the present embodiment, the first planetary gear train 1030 and second in double planet wheel rows of mixing TV coupling mechanisms 1200 Planetary gear train 1040 is the third planet train in two-stage planet wheel planet row, single planetary row differential mechanism coupling mechanism 1300 1050 be two-stage planet wheel planet row, and structure diagram is as shown in the figure.

Scheme shown in Fig. 1 to Fig. 4 is the electric differential mechanism of the present invention with torque fixed direction allocation function Achievable example structure scheme, it is contemplated that system inertia loses, running efficiency, the embodiment scheme shown in Fig. 1 is Optimal preferred scheme, next to that scheme shown in Fig. 3, is scheme shown in Fig. 2 and Fig. 4 again.

Electric differential mechanism operation principle of the present invention with torque fixed direction allocation function is as follows：

By taking the example structure sketch of the electric differential mechanism with torque fixed direction allocation function shown in Fig. 1 as an example, explanation Operation principle.

When automobile straight-line travelling, left and right sides wheel driving torque is identical, is distributed without torque, therefore TV controlled motors Without control electric signal in 1001, TV controlled motors are inoperative, and automobile is only driven by main drive motor 1002, main drive motor The moment of torsion of 1002 outputs is by the moment of torsion increasing action of main drive motor reducing gear 1500 to differential carrier 1401, due to tradition The principle of the grade of bevel differential mechanism 1400 point moment of torsion, the moment of torsion acted on differential carrier 1401 is distributed to the first semiaxis 1402 and second on semiaxis 1403, drives running car.It is on the contrary if setting the direction of rotation of wheel during Automobile drive as positive direction For negative direction.Now, differential carrier 1401, the first semiaxis 1402 are identical with the rotary speed of the second semiaxis 1403, third planet The planetary gear 1052 of train 1050 only revolves round the sun without rotation, therefore, planet carrier 1053 and sun gear 1054 with differential carrier 1401 Constant speed rotation.And the rotation of the sun gear 1034 due to the first planetary gear train 1030 and the planet carrier 1053 of third planet train 1050 Rotary speed is identical, and the sun gear 1044 of the second planetary gear train 1040 is integrated with the sun gear 1054 of third planet train 1050, So the constant speed rotation of sun gear 1044 in the planetary gear train 1040 of sun gear 1034 and second in the first planetary gear train 1030.Cause It is that the first planetary gear train 1030 and the second planetary gear train 1040 are total to gear ring, two sun wheel speeds are also identical, so planet carrier 1033 rotating speed is also identical with the rotating speed of planet carrier 1043, and planet carrier 1043 is fixed, and rotating speed is 0, so the rotating speed of planet carrier 1033 Also it is 0.Due to TV reducing gears, 1100 change the torque that TV controlled motors 1001 are exported, and are not changing the moment of torsion of output just Negative direction, therefore, when automobile is kept straight on, the internal rotor rotating speeds of TV controlled motors 1001 is also inoperative, no for 0, TV controlled motors Output torque, automobile is only driven by main drive motor 1002, and torque distribution stream is as shown in Figure 5.

When the normal differential of automobile is turned, left and right sides wheel driving torque is identical, is distributed without torque, therefore TV is controlled Without control electric signal in motor 1001, TV controlled motors are inoperative, and automobile is only driven by main drive motor 1002, main driving electricity The moment of torsion that machine 1002 is exported is by the moment of torsion increasing action of main drive motor reducing gear 1500 to differential carrier 1401, due to passing The principle of the bevel differential mechanism 1400 that unites grade point moment of torsion, the moment of torsion acted on differential carrier 1401 is distributed to the first semiaxis 1402 and second on semiaxis 1403, drives running car.

It is on the contrary to be if set the direction of rotation of wheel during Automobile drive as positive direction so that the normal differential of automobile turns left as an example Negative direction.Then single planetary row differential mechanism coupling mechanism 1050 is obtained by single planetary bevel gear planet row rotating speed formula：

n_S5+k₅n_R5-(k₅+1)n_PC5=0

N in formula_S5For the rotating speed of 1050 sun gear of third planet train 1054, n_R5Turn for the ring gear of third planet train 1051 Speed, n_PC5For the planet carrier rotating speed of third planet train 1053, k₅For third planet train planet row characteristic parameter.Because automobile is left Turn, so the rotating speed of differential carrier 1401 is more than the rotating speed of the first semiaxis 1402, so：

n_S5＜ n_R5

So：

n_S5＜ n_PC5

The rotating speed of sun gear 1054 i.e. in third planet train 1050 is less than the rotating speed of planet carrier 1053, so for duplicate rows In star row TV coupling mechanisms 1200, the rotating speed of sun gear 1034 in the first planetary gear train 1030 is more than in the second planetary gear train 1040 The rotating speed of sun gear 1044.Again because the first planetary gear train 1030 and the common gear ring of the second planetary gear train 1040, double planet wheel rows of mixing TV coupling mechanisms 1200 then have：

n_S3-(k+1)n_PC3=n_S4-(k+1)n_PC4

N in formula_S3For the rotating speed of 1030 sun gear of the first planetary gear train 1034, n_PC3For the planet carrier of the first planetary gear train 1030 1033 rotating speeds, n_S4For the rotating speed of 1040 sun gear of the second planetary gear train 1044, n_PC4For 1043 turns of 1040 planet carrier of the second planetary gear train Speed, k is the planet row characteristic parameter of the first planetary gear train 1030 and the second planetary gear train 1040.And because：

n_S3＞ n_S4, and n_PC4=0

So：

n_PC3＞ 0

That is the rotating speed of planet carrier 1033 of the first planetary gear train 1030 is just, so the internal rotor rotating speed of TV controlled motors 1001 Also for just.Therefore, when the normal differential of automobile turns left, TV controlled motors 1001 are inputted without electric signal, without torque output, TV controls The cartridge type internal rotor of motor processed is pulled by torque divider 2000 to be rotated with positive direction.Torque distribution stream is as shown in Figure 6.

Similarly can proper automobile normal differential when turning right, TV controlled motors 1001 are inputted without electric signal, without torque output, The cartridge type internal rotor of TV controlled motors is pulled by torque divider 2000 to be rotated with negative direction.Torque distribution stream is same as schemed Shown in 6.

When automobile high speed is turned, it is necessary to which inboard wheel torque fixed direction allocation to outboard wheels is motor-driven to improve turning During property.If setting the direction of rotation of wheel during Automobile drive as positive direction, otherwise it is negative direction, divides so that automobile turns left as an example Analysis.Now motor controller controls TV controlled motors 1001 export forward torque T₀(T₀For on the occasion of), the torque passes through TV reductors Structure 1100, which slows down, to be increased after torsion, and the torque of planet carrier 1033 is iT in input double planet wheel rows of mixing TV coupling mechanisms 1200₀, wherein i is TV The gearratio of reducing gear 1100.So the torque that sun gear 1034 inputs the first semiaxis 1402 in the first planetary gear train 1030 isThe torque that then TV controlled motors 1001 are inputted into the sun gear 1054 in single planetary row differential mechanism coupling mechanism 1300 isSo the torque that the planet carrier 1053 in third planet train 1050 inputs the first semiaxis 1402 isThe torque that ring gear 1051 is inputted into differential carrier 1401 isBy the decile of differential carrier 1401 Torque to the first semiaxis 1402 and the second semiaxis 1403 isSo final input the first half by controlled motor 1001 The torque of axle 1402 is that sun gear 1034 inputs the torque of the first semiaxis 1402, the third line star-wheel in the first planetary gear train 1030 It is planet carrier 1053 inputs the first semiaxis 1402 in 1050 torque, the torque of the decile of differential carrier 1401 to the first semiaxis 1402 Three part sums are constituted, its result forThe power of the second semiaxis 1403 is finally entered by TV controlled motors 1001 Square isAs above as can be seen that being inputted by TV controlled motors 1001 into the first semiaxis 1402 and the second semiaxis 1403 Torque etc. is big reversely, therefore does not change total zigzag tread patterns torque, and subtracts with the left side wheel torque that the first semiaxis 1402 is connected Right side wheels torque increase that is few, being connected with the second semiaxis 1403, can produce a yaw moment for helping to turn left, improve The left-hand bend mobility of automobile.It should be noted that the now rotating speed of TV controlled motors 1001 and normal differential left-hand rotation phase Together.Torque distribution stream now is as shown in Figure 7.If it should be noted that TV controlled motors export negative sense torque at this moment, driving Orientation is assigned to left side wheel by dynamic torque by right side wheels, and the yaw moment of vehicle oversteering is prevented by producing one, For keeping stability of automobile.

It can similarly obtain, when automobile high speed is turned right, the output negative sense of motor controller controls TV controlled motors 1001 turns Square, a yaw moment for helping to turn right can be produced on the premise of total zigzag tread patterns torque is not changed, vapour is improved The right-hand bend mobility of car.It should be noted that identical when now the rotating speed of TV controlled motors 1001 is turned right with normal differential.This When torque distribution stream it is as shown in Figure 8.It should be noted that if TV controlled motors export forward torque at this moment, driving turns Orientation is assigned to right side wheels by square by left side wheel, is prevented the yaw moment of vehicle oversteering by producing one, is used for Keep stability of automobile.

Although embodiment of the present invention is disclosed as above, it is not restricted in specification and embodiment listed With it can be applied to various suitable the field of the invention completely, can be easily for those skilled in the art Other modification is realized, therefore under the universal limited without departing substantially from claim and equivalency range, the present invention is not limited In specific details and shown here as the legend with description.

Claims

1. a kind of electric differential mechanism with torque fixed direction allocation function, it is characterised in that including：

Main driving mechanism, it is arranged on differential mechanism side, its output end connected with differential housing, can be delivered to rotary power Differential casing driving vehicle traveling；

First single epicyclic train, it includes the first sun gear, the first planetary gear, the first planet carrier and the first gear ring, institute State the first sun gear to be fixedly and coaxially connected with the first semiaxis, first planet carrier controls the output end of drive mechanism to connect with TV Connect；

Second single epicyclic train, it includes the second sun gear, the second planetary gear, the second planet carrier and the second gear ring, institute State the second planet carrier to be fixed on driving axle housing, the second gear ring is fixedly connected with the first gear ring；The rotatable branch of second sun gear Support is on the first semiaxis；

3rd single epicyclic train, it includes the 3rd sun gear, the third line star-wheel, the third line carrier and the 3rd gear ring, institute State the 3rd sun gear to be fixedly connected with the second sun gear, the 3rd sun gear is rotatably supported on the first semiaxis, third planet Frame is fixedly connected with the first semiaxis, and the 3rd gear ring is fixedly connected with differential carrier；

2. the electric differential mechanism according to claim 1 with torque fixed direction allocation function, it is characterised in that the TV controls Drive mechanism processed includes TV controlled motors and TV reducing gears.

3. the electric differential mechanism according to claim 2 with torque fixed direction allocation function, it is characterised in that the TV controls Motor processed has a hollow output shaft, and first semiaxis is rotatably supported at the hollow output shaft, and from hollow output Passed in axle.

4. the electric differential mechanism according to claim 2 with torque fixed direction allocation function, it is characterised in that the TV subtracts Fast mechanism includes：

4th single epicyclic train, it includes the 4th sun gear, fourth line star-wheel, fourth line carrier and the 4th gear ring, institute State the 4th sun gear to be fixedly connected with hollow output shaft, the 4th gear ring is fixed on driving axle housing；

5th single epicyclic train, it includes the 5th sun gear, fifth line star-wheel, fifth line carrier and the 5th gear ring, institute State the 5th sun gear to be fixedly connected with fourth line carrier, the 5th gear ring is fixed on driving axle housing, the fifth line carrier It is connected as control output end with the first planet carrier.

5. the electric differential mechanism according to claim 1 with torque fixed direction allocation function, it is characterised in that the main drive Motivation structure includes main drive motor and main gear reducer structure.

6. the electric differential mechanism according to claim 5 with torque fixed direction allocation function, it is characterised in that the main drive Dynamic motor has a hollow output shaft, and second semiaxis is rotatably supported at the hollow output shaft, and from hollow output Passed in axle.

7. the electric differential mechanism according to claim 5 with torque fixed direction allocation function, it is characterised in that the master subtracts Fast mechanism includes：

7th single epicyclic train, it includes the 7th sun gear, the 7th planetary gear, the 7th planet carrier and the 7th gear ring, institute State the 7th sun gear to be fixedly connected with main drive motor output shaft, the 7th gear ring is fixed on driving axle housing；

6th single epicyclic train, it includes the 6th sun gear, the 6th planetary gear, the 6th planet carrier and the 6th gear ring, institute State the 6th sun gear to be fixedly connected with the 7th planet carrier, the 6th gear ring is fixed on driving axle housing, the 6th planet carrier It is fixedly connected with differential carrier.

8. a kind of electric differential mechanism with torque fixed direction allocation function, it is characterised in that including：

Main driving mechanism, it is arranged on differential mechanism side, its output end connected with differential housing, can be delivered to rotary power Differential casing, driving vehicle traveling；

First single double pinions system, it includes the first sun gear, the first two-stage planet wheel, the first planet carrier and first Gear ring, first sun gear is fixedly and coaxially connected with the first semiaxis, and first planet carrier controls the defeated of drive mechanism with TV Go out end connection；

Second single double pinions system, it includes the second sun gear, the second row twin-stage star-wheel, the second planet carrier and second Gear ring, second planet carrier is fixed on driving axle housing, and the second gear ring is fixedly connected with the first gear ring；Second sun gear can revolve What is turned is supported on the first semiaxis；

9. a kind of electric differential mechanism with torque fixed direction allocation function, it is characterised in that including：

3rd single double pinions system, it includes the 3rd sun gear, the 3rd two-stage planet wheel, the third line carrier and the 3rd Gear ring, the 3rd sun gear is fixedly connected with the second sun gear, and the 3rd sun gear is rotatably supported on the first semiaxis, the Three planet carriers are fixedly connected with the first semiaxis, and the 3rd gear ring is fixedly connected with differential carrier；

10. a kind of electric differential mechanism with torque fixed direction allocation function, it is characterised in that including：

Second single double pinions system, it includes the second sun gear, the second two-stage planet wheel, the second planet carrier and second Gear ring, second planet carrier is fixed on driving axle housing, and the second gear ring is fixedly connected with the first gear ring；Second sun gear can revolve What is turned is supported on the first semiaxis；