CN108501716A - A kind of between centers torque universe actively distributes in due course four-wheel drive system - Google Patents

A kind of between centers torque universe actively distributes in due course four-wheel drive system Download PDF

Info

Publication number
CN108501716A
CN108501716A CN201810443950.XA CN201810443950A CN108501716A CN 108501716 A CN108501716 A CN 108501716A CN 201810443950 A CN201810443950 A CN 201810443950A CN 108501716 A CN108501716 A CN 108501716A
Authority
CN
China
Prior art keywords
gear
fixedly connected
ring gear
planet
sun gear
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201810443950.XA
Other languages
Chinese (zh)
Inventor
王军年
王凯
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Jilin University
Original Assignee
Jilin University
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Jilin University filed Critical Jilin University
Priority to CN201810443950.XA priority Critical patent/CN108501716A/en
Publication of CN108501716A publication Critical patent/CN108501716A/en
Pending legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60KARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
    • B60K17/00Arrangement or mounting of transmissions in vehicles
    • B60K17/34Arrangement or mounting of transmissions in vehicles for driving both front and rear wheels, e.g. four wheel drive vehicles
    • B60K17/344Arrangement or mounting of transmissions in vehicles for driving both front and rear wheels, e.g. four wheel drive vehicles having a transfer gear
    • B60K17/346Arrangement or mounting of transmissions in vehicles for driving both front and rear wheels, e.g. four wheel drive vehicles having a transfer gear the transfer gear being a differential gear
    • B60K17/3462Arrangement or mounting of transmissions in vehicles for driving both front and rear wheels, e.g. four wheel drive vehicles having a transfer gear the transfer gear being a differential gear with means for changing distribution of torque between front and rear wheels

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Arrangement And Driving Of Transmission Devices (AREA)

Abstract

The invention discloses a kind of between centers torque universes actively to distribute in due course four-wheel drive system, including:Power input shaft;Front axle;Rear axle;First planetary gear train comprising the first sun gear, the first planetary gear, first planet carrier and the first ring gear, the first ring gear are equipped with hollow shaft of the empty set on rear axle;Second planetary gear train comprising the second sun gear, the second planetary gear, the second planet carrier and the second ring gear;Third planet train comprising third sun gear, the third line star-wheel, third planet carrier and third ring gear;TV controls motor, is equipped with hollow output shaft of the empty set on rear axle, and hollow output shaft is connect by deceleration mechanism with third ring gear;Input sprocket is connected with first planet carrier;Realize that power transmission, output chain gear are connected with front axle by transmission chain between output chain gear, with input sprocket.Between centers torque universe provided by the invention actively distributes in due course four-wheel drive system, and the function of the arbitrary distribution of torque between antero posterior axis may be implemented.

Description

A kind of between centers torque universe actively distributes in due course four-wheel drive system
Technical field
The invention belongs to 4 wheel driven automobile driving system technical field, more particularly to a kind of between centers torque universe is actively distributed suitable When four-wheel drive system.
Background technology
In recent years, it is constantly progressive with the improvement of people ' s living standards with technology, people also put forward the quality of automobile Gone out increasingly higher demands, automobile by initially only as the demand of walking-replacing tool be gradually transitioned into safety, comfort, In the demands such as economy and driving pleasure, people travel multi-functional, multiple road conditions and the demand of high-performing car is also year by year Increase, such as high-performance 4 wheel driven SUV or high-performance 4 wheel driven car.These vehicles are not only more next in internal combustion engine driving Automobile Market It is higher, such as be equipped with the Audi Q5SUV of sports type differential mechanism, be equipped with SH-AWD four-wheel drive systems and sing the praises of TLX intermediate-size cars, even if Be for hybrid vehicle or electric vehicle be also future market mainstream development trend, as Volvo XC60T8E drive it is mixed dynamic and Tesla Model S etc..
The classification of driving wheel number is pressed, the drive form of automobile mainly has two-wheel drive and 4 wheel driven driving.For four-wheel drive It is divided into as in due course 4 wheel driven, full-time four-wheel drive, time sharing.It is divided into as centralization driving and distribution according to driveline arrangement form Driving, the former has application in traditional combustion engine automobile and new-energy automobile, and the latter often uses wheel hub motor or wheel Side motor driving, therefore generally used by new-energy automobile, especially electric vehicle, referred to as Electric Motor Wheel independently drives vapour Vehicle.Distributed In-wheel motor driving can easily realize four-wheel drive, and the general direct drive of wheel of wheel hub motor, not have Excessive transmission system, thus it is simple in structure, space hold is small, transmission efficiency, a kind of excellent driving form of can yet be regarded as.However At this stage, face that the universal power density of wheel hub motor is high, motor working environment badly leads to poor reliability, wheel hub motor increases Unsprung mass causes the technical bottlenecks such as automobile ride reduction to seriously affect its large-scale use, therefore is some concept cars at present Or small lot sample car is using, most of electric vehicle is still driven using central as driving automotive-type with internal combustion engine Form.The power source of internal combustion engine or centralized hybrid power assembly (Hybrid Powertrain) as concentration, often cloth It sets in front-axle engine cabin, this single centralized power source (generally has hybrid power system multiple power sources, but mainstream All it is to become one to form the hybrid power assembly of a concentration with internal combustion engine, speed changer or coupling device) biography can only be used Power is transferred to wheel by system central transmission system.Reason as previously described, electric vehicle also generally use at present The central drive axle form of the lower single motor matching conventional ADS driving bridge of development cost drives wheel, therefore either interior Combustion engine automobile, hybrid vehicle, electric vehicle then need a transfer device or coupling device if necessary to four-wheel drive Power is separated into a part and is transferred to other axle shafts.
According to different 4 wheel driven handling capacity design requirements, for three kinds of 4 wheel driven forms above-mentioned, above-mentioned three kinds of power cars Its power transfer device of type or coupling device also and differ, such as:For in due course 4 wheel driven automobile, often use defeated in speed changer Power is transferred to front-rear axle by two identical gears of external toothing simultaneously for shaft side, and is going to non-principal drive axle (after generally Bridge) before increase electromagnetism multiplate clutch realization power is in time transferred to by rear axle by transmission shaft.When electromagnetic clutch knot When conjunction, total driving torque of half generally at most can be obtained in rear axle.It is so-called that exactly not All Time combines clutch in due course Power is transferred to rear axle afterwards, and 4 wheel driven could be generally realized when front-wheel skids or when needing 4 wheel driven to work in short-term;And for complete When 4 wheel driven, often the transmission shaft of forward and backward bridge is connected using center differential (i.e. inter-axle differential), the torque of front-rear axle Distribution is generally mean allocation, and also some use unequal distribution, since common open type differential has " the not poor torsion of differential " Feature, in order to cause another bridge driving force also to decline when ensureing to avoid some bridge wheel-slip, passability reduces, therefore such is full-time The center differential of four-wheel drive system generally selects limited-slip differential or center differential with differential lock function to realize torque Antero posterior axis transfer;And for time sharing, it often increases center differential in speed changer or after speed changer newly, passes through switching The engagement of center differential middle gear is transferred to non-principal drive axle (bridge before generally) with realization power is exited.Center differential Motor torque is further amplified typically with bottom gear, meets the requirement of limit cross-country power.Although above-mentioned three kinds of 4 wheel drivens Form realizes that power is transferred to four wheels using different mechanisms, but these mechanisms are all from original internal combustion engine 4 wheel driven automobile It inherits, even with electric vehicle, most of single motor electric four-wheel drive automobile also all uses traditional combustion engine 4 wheel driven vapour The transfer device or dynamic coupling device of vehicle realize 4 wheel driven, and all no the characteristics of being directed to electric vehicle and the market demand are targetedly Electric four-wheel drive system is developed, can be sayed without any new meaning.In addition importantly, above-mentioned 4 wheel driven mechanism all exist it is such-and-such Disadvantage, such as:In due course 4 wheel driven automobile is since most of operating mode is all uniaxial (generally front axle) driving, and front-wheel enters low attached once in a while When or vacantly skidding, electromagnetism multiplate clutch combines rapidly another axle for making part driving torque be transferred to attachment (generally rear axle) driving vehicle traveling, ensures vehicle dynamic quality and riding stability, can also improve passability to a certain extent It can, it is often more important that since the most of the time is uniaxial driving therefore there is good economy.However since its kind of drive is Gear drive powers up the mode of magnetic multiplate clutch, it is caused generally can only to be no more than the one of vehicle maximum output torque by maximum Partly transfer is exported to non-principal driving wheel in a short time, therefore such automobile is general by performance, can only be slight cross-country, but It is best to travel economy.Full-time four-wheel drive automobile is due to being all that four wheels drive in whole running times, additionally, due to generally all Increase and be furnished between centers limited-slip differential or differential lock, therefore vehicle dynamic property, riding stability and passability are all by force very than in due course 4 wheel driven It is more, but since its is complicated, of high cost, therefore middle and high end 4 wheel driven SUV or high-end 4 wheel driven cars are generally only applied to, and due to Always four-wheel drive can not achieve the torque distribution of active up to uniaxial type of drive, therefore it is poor to travel economy.Time sharing Generally rear wheel drive form, single shaft travel good economy performance when driving.Power is transmitted simultaneously when by manipulating center differential After becoming four-wheel drive to front-rear axle, due to not having center differential generally, therefore it can not run at high speed in normal paved road, Low-speed off-road can only be carried out in non-paved road.And due to body structure, car weight, axle device without differential, tire etc., in conjunction with four Economy is travelled when drive and control stability differs greatly than other 4 wheel driven automobiles, therefore is difficult to apply to high-end 4 wheel driven car and height Performance SUV.
In general, full-time four-wheel drive form is relatively preferable, but " differential is not poor since its open differential used has The characteristic of torsion " may then lead to the wheel slip on low attachment side axle when the attachment of automobile antero posterior axis road surface is inconsistent, Cause automobile is stranded can not travel.Or when automobile emergency accelerates, load by front axle, move backward by shaft rotation, it is also possible to cause front axle wheel Reach limit of adhesion generation to trackslip and make automobile unstability.Although various between centers limited-slip differentials or shaft space difference speed lock in the prior art The transmission shaft that front-rear axle can be connected by part locking or complete locking, to realize that torque is supreme from the transfer of low attachment axle Adhere to axle, avoid wheel-slip, improve trafficability, but the transfer distribution of the between centers of torque be it is unidirectional, can only be from turning A fast fast axis moves driving moment toward the slow shaft rotation of rotating speed, this can not promote mobility and drive of the vehicle under various road conditions Dynamic performance.Center differential on orthodox car can only change the rotating speed of two axis, can not distribution of torque, though and center differential The distribution of between centers torque so may be implemented, but cannot achieve arbitrary torque value between centers fixed direction allocation.
Invention content
The purpose of the present invention is overcoming the above-mentioned prior art, towards four-drive electric car, four-drive hybrid electric vapour The performance requirement of vehicle and 4 wheel driven traditional combustion engine automobile provides a kind of between centers torque universe and actively distributes in due course 4 wheel driven system System, the power source for using a motor to be distributed as between centers torque can be such that total driving of the automobile of the in due course 4 wheel driven of holding turns Square can be distributed actively in any proportion between antero posterior axis, and overcoming existing in due course 4 wheel driven technology can only be in certain proportion range The technological deficiency of the interior passive total driving torque of distribution, improves the comprehensive performance of automobile.
Technical solution provided by the invention is:
A kind of between centers torque universe actively distributes in due course four-wheel drive system, including:
Power input shaft;
Front axle;
Rear axle;
First planetary gear train comprising the first sun gear, the first planetary gear, first planet carrier and the first ring gear;
Wherein, the first planet carrier is fixedly connected with the power input shaft, while being fixed together with input sprocket; First sun gear is fixedly connected with the rear axle, and first ring gear is equipped with hollow shaft, the sky of first ring gear Mandrel empty set is in the rear on axis;
Second planetary gear train comprising the second sun gear, the second planetary gear, the second planet carrier and the second ring gear;
Wherein, second sun gear is fixedly connected with the hollow shaft of first ring gear, second ring gear with Four-wheel drive system shell is fixedly connected;
Third planet train comprising third sun gear, the third line star-wheel, third planet carrier and third ring gear;
Wherein, the third sun gear is fixedly connected with the rear axle;The third planet carrier and second planet carrier It is fixedly connected;
TV controls motor, is equipped with hollow output shaft, and the hollow output shaft empty set is in the rear on axis, and described hollow Output shaft is connect by deceleration mechanism with the third ring gear;
Input sprocket is fixedly connected with the first planet carrier;
Output chain gear is fixedly connected with the front axle;
Wherein, the input sprocket and the output chain gear carry out power transmission by transmission chain.
Preferably, second planetary gear train and third planet train planet row characteristic parameter having the same and Planet row type.
Preferably, the deceleration mechanism includes fourth planet train comprising the 4th sun gear, fourth line star-wheel, Four planet carriers and the 4th ring gear;
Wherein, the 4th sun gear is fixedly connected with the hollow output shaft;The fourth line carrier and the third Ring gear is fixedly connected;4th ring gear is fixedly connected with the four-wheel drive system shell.
Preferably, the transmission ratio of the input sprocket and the output chain gear is 1.
Preferably, it is connected by bearing between the hollow shaft and the rear axle of first ring gear.
Preferably, the TV controls motor is cartridge type inner rotor motor.
Preferably, it is connected by bearing between the hollow output shaft and the rear axle.
Preferably, the stator of TV controls motor and shell are fixedly connected with the four-wheel drive system shell.
Preferably, the hollow output shaft of the TV controls motor and the centre bore of the 4th sun gear are connected by spline It connects.
A kind of between centers torque universe actively distributes in due course four-wheel drive system, including:
Power input shaft;
Front axle;
Rear axle;
First planetary gear train comprising the first sun gear, the first planetary gear, first planet carrier and the first ring gear;
Wherein, the first planet carrier is fixedly connected with the power input shaft, while being fixed together with input sprocket; First sun gear is fixedly connected with the rear axle, and first ring gear is equipped with hollow shaft, the sky of first ring gear Mandrel empty set is in the rear on axis;
Second planetary gear train comprising the second sun gear, the second planetary gear, the second planet carrier and the second ring gear;
Wherein, second sun gear is equipped with hollow shaft, and the hollow shaft empty set of second sun gear is in the rear on axis, It is connected by bearing between the hollow shaft and the rear axle of second sun gear;Second planet carrier and first internal tooth The hollow shaft of circle is fixedly connected, and second ring gear is fixedly connected with four-wheel drive system shell;
Third planet train comprising third sun gear, the third line star-wheel, third planet carrier and third ring gear;
Wherein, the third sun gear is fixedly connected with the hollow shaft of second sun gear;The third planet carrier with The rear axle is fixedly connected;
Wherein, second planetary gear train and third planet train planet row characteristic parameter having the same and planet Arrange type;
TV controls motor, is equipped with hollow output shaft, and the hollow output shaft empty set is in the rear on axis, and described hollow Output shaft is connect by deceleration mechanism with the third ring gear;
The deceleration mechanism includes fourth planet train comprising the 4th sun gear, fourth line star-wheel, fourth line carrier and 4th ring gear;
Wherein, the 4th sun gear is fixedly connected with the hollow output shaft;The fourth line carrier and the third Ring gear is fixedly connected;4th ring gear is fixedly connected with the four-wheel drive system shell;
Input sprocket is fixedly connected with the first planet carrier;
Output chain gear is fixedly connected with the front axle;
Wherein, the input sprocket and the output chain gear carry out power transmission by transmission chain.
A kind of between centers torque universe actively distributes in due course four-wheel drive system, including:
Power input shaft;
Front axle;
Rear axle;
First planetary gear train comprising the first sun gear, the first planetary gear, first planet carrier and the first ring gear;
Wherein, the first planet carrier is fixedly connected with the power input shaft, while being fixed together with input sprocket; First sun gear is fixedly connected with the rear axle, and first ring gear is equipped with hollow shaft, the sky of first ring gear Mandrel empty set is in the rear on axis;
Second planetary gear train comprising the second sun gear, the second planetary gear, the second planet carrier and the second ring gear;
Wherein, second sun gear is fixedly connected with the hollow shaft of first ring gear, second planet carrier with Four-wheel drive system shell is fixedly connected;
Third planet train comprising third sun gear, the third line star-wheel, third planet carrier and third ring gear;
Wherein, the third sun gear is fixedly connected with the rear axle;The third ring gear and second ring gear It is fixedly connected, is connected by bearing between second ring gear and the third ring gear and the four-wheel drive system shell;
Wherein, second planetary gear train and third planet train planet row characteristic parameter having the same and planet Arrange type;
TV controls motor, is equipped with hollow output shaft, and the hollow output shaft empty set is in the rear on axis, and described hollow Output shaft is connect by deceleration mechanism with the third planet carrier;
The deceleration mechanism includes fourth planet train comprising the 4th sun gear, fourth line star-wheel, fourth line carrier and 4th ring gear;
Wherein, the 4th sun gear is fixedly connected with the hollow output shaft;The fourth line carrier and the third Planet carrier is fixedly connected;4th ring gear is fixedly connected with the four-wheel drive system shell;
Input sprocket is fixedly connected with the first planet carrier;
Output chain gear is fixedly connected with the front axle;
Wherein, the input sprocket and the output chain gear carry out power transmission by transmission chain.
The beneficial effects of the invention are as follows:
1, between centers torque universe provided by the invention actively distributes in due course four-wheel drive system, and existing in due course 4 wheel driven system may be implemented The repertoire of system, generally uniaxial two-wheel drive when meeting with common drive shaft and skidding or artificially press 4 wheel driven mode switch When, a certain range of four-wheel drive traveling may be implemented, vehicle travels good economy performance.
2, between centers torque universe provided by the invention actively distributes in due course four-wheel drive system, overcomes existing in due course four-wheel drive system (total driving can only be usually no more than to turn in smaller range by controlling the binding force of electromagnetism multiplate clutch in 4 wheel driven pattern The half of square) change the technological deficiency for being transferred to non-principal drive shaft (referring generally to rear axle) torque, it may be implemented in 4 wheel driven pattern When arbitrary distribution of torque between antero posterior axis function, and respond rapid;Limiting case will be whole when single shaft has skidded Power assembly output torque is transferred to well attached another axis, realizes uniaxial driving, can not compared to In-wheel motor driving With gross output is reduced, ensure vehicle dynamic property.
3, between centers torque universe provided by the invention actively distributes in due course four-wheel drive system, overcomes existing in due course four-wheel drive system Driving torque can only be unidirectionally transferred to the slow another axis of rotating speed from the fast axis of rotating speed when torque distributes in 4 wheel driven pattern Technological deficiency, may be implemented rotating speed is fast, between slow two axis the active distribution of torque of any direction function, you can with from turning A fast fast shaft rotation moves to the slow axis of rotating speed, and the function of the fast axis of rotating speed can be also moved to from the slow shaft rotation of rotating speed.
4, between centers torque universe provided by the invention actively distributes in due course four-wheel drive system, is independently driven compared to wheel hub motor It is dynamic, each wheel hub motor need not individually be controlled, and only need that a motor control to can be adjusted each axis driving turn Square, control system is simple and reliable, and control is easy to implement.
5, between centers torque universe provided by the invention actively distributes in due course four-wheel drive system, need not carry out torque orientation point Timing when two-wheel drive (i.e. uniaxial), automobile in straight trip, motor can with remains stationary, not will produce idle running, therefore not Induced electromotive force and leakage current are will produce, power loss is small, saves energy.
6, between centers torque universe provided by the invention actively distributes in due course four-wheel drive system, the distribution of torque universe orientation Essential technique feature, the need for improving vehicle dynamic property, economy, turning mobility, control stability and passability can be taken into account It asks, improves vehicle comprehensive performance.
Description of the drawings
Fig. 1 is that between centers torque universe of the present invention actively distributes in due course one structural schematic diagram of four-wheel drive system embodiment (for TV control motors are placed in rear axle).
Fig. 2 is that between centers torque universe of the present invention actively distributes in due course two structural schematic diagram of four-wheel drive system embodiment (for TV control motors are placed in rear axle).
Fig. 3 is that between centers torque universe of the present invention actively distributes in due course three structural schematic diagram of four-wheel drive system embodiment (for TV control motors are placed in rear axle).
Fig. 4 actively distributes in due course four-wheel drive system between centers torque universe of the present invention and does not work in TV control motors When torque flow to schematic diagram.
Fig. 5 is that between centers torque universe of the present invention actively distributes in due course four-wheel drive system when TV controls motor and works Torque flow to schematic diagram.
Specific implementation mode
Present invention will be described in further detail below with reference to the accompanying drawings, to enable 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 present invention provides a kind of between centers torque universes actively to distribute in due course four-wheel drive system, mainly in Differential mechanism 2000, double planet wheel rows of mixing TV coupling mechanisms 3000, TV control motor decelerating mechanisms 4000 and TV is entreated to control 5001 structure of motor At.
The center differential 2000 is located near power intake, is mainly made of the first planetary gear train 2010, including 2011, three planetary gears being distributed uniformly and circumferentially 2012 of sun gear, ring gear 2013 and planet carrier 2014.Wherein, too The center of sun wheel 2011 and rear axle 5002 are fixed together by spline.The part diameter that extends back of ring gear 2013 becomes smaller and becomes Hollow ladder hollow shaft, rear axle 5002 pass through from front to back inside hollow shaft, and arrangement matched bearings rises therebetween To the friction and mutual supporting role reduced when relatively rotating between the two.It is straight to be more than end for position diameter among hollow shaft outer diameter Diameter, outer end diameter are machined with spline.Planet carrier 2014 is fixed together with input sprocket 1000, while in 2014 left end of planet carrier The heart and power input shaft 5003 are fixed together by spline, and power input shaft 5003 is the power intake of vehicle, Ke Yijie Enter other rotating power sources by traditional combustion engine or including motor to provide power.When power source is traditional combustion engine When, power input shaft 5003 is connected with the power assembly output end that internal combustion engine and matched speed changer form;When power source is electricity Can directly it be connected with motor output end when motivation, it also can be with the power assembly output end of motor and few speed transmission composition It is connected.
Double planet wheel rows of mixing TV coupling mechanisms 3000 include mainly two single planetary gear trains:Second planetary gear train 3020 and third Planetary gear train 3030.The two single planetary gear trains planet row characteristic parameter having the same and planet row type, and feature is joined Number is more than 1, and (the planet row characteristic parameter is that machinery field usually defines, that is, refers to ring gear and sun gear in planet row The ratio between the number of teeth).Second planetary gear train 3020 includes 3021, three planetary gears being distributed uniformly and circumferentially of sun gear 3022, ring gear 3023 and planet carrier 3024.Wherein, the ring gear 2013 at 3021 center of sun gear and the first planetary gear train 2010 The hollow shaft end to extend back is fixed together by spline.Ring gear 3023 is connected with four-wheel drive system shell 6003.It is described Third planet train 3030 includes sun gear 3031, three planetary gears being distributed uniformly and circumferentially 3032, ring gears 3033 With planet carrier 3034.Wherein, sun gear 3031 and the rear axle 5002 extended through from its center to rear are connected to by spline Together, planet carrier 3034 and the planet carrier 3024 of the second planetary gear train 3020 are fixed together.
TV control motor decelerating mechanisms 4000 are mainly made of fourth planet train 4040.The fourth planet train 4040 Including 4041, three planetary gears being distributed uniformly and circumferentially 4042 of sun gear, ring gear 4043 and planet carrier 4044.Its In, ring gear 4043 is connected with four-wheel drive system shell 6003, the ring gear 3033 of planet carrier 4044 and third planet train 3030 It is fixed together.It should be noted that TV controls motor decelerating mechanism 4000 using single planetary gear train in the present embodiment, The deceleration mechanism that other kinds of planetary gear train or multiple rows of planetary gear train form is selected not constitute the new knot for being different from the present invention Structure.
The TV controls motor 5001 is a cartridge type inner rotor motor, connects the rear axle 5002 from its of rear driving axle Hollow inner rotor shaft centre bore, which does not contact, to be pierced by, and arranges that matched bearings plays reduction and relatively rotates between the two therebetween When friction and mutual supporting role.Cartridge type internal rotor anterior end outer diameter is machined with spline, with fourth planet train 4040 4041 centre bore of sun gear is linked together by spline, and the output torque so as to which TV to be controlled to motor 5001 passes It is delivered to fourth planet train 4040.The stator and its shell of the TV control motors 5001 are connected with four-wheel drive system shell 6003 Together, it is supported and fixed by four-wheel drive system shell 6003.
The input sprocket 1000 realizes input sprocket 1000 and output chain gear 6000 by using transmission chain 6002 Power transmits.Compare gear engaged transmission mode, and front axle 6001 may be implemented with rear axle 5002 not in such chain drive mode Parallel arrangement at regular intervals under conditions of increase gear diameter.Input sprocket 1000 and 6000 number of teeth of output chain gear and diameter It is identical.Output chain gear 6000 is connect by centre bore spline with 6001 spline of front axle;Input sprocket 1000 and the first planet The planet carrier 2014 of train 2010 is fixed together.
In addition, between centers torque universe of the present invention actively distributes all planetary gears that in due course four-wheel drive system is included System, characteristic parameter are all higher than 1.
Between centers torque universe of the present invention is actively distributed in due course four-wheel drive system and is not waited in torques distribution by being arranged Centre differential mechanism 2000, altogether posture double planet wheel rows of mixing TV coupling mechanisms 3000 and chain drive realize with core component be engine or The connection of the power assembly of motor connected power input shaft 5003 and front axle 6001 and rear axle 5002, front axle 6001 will move again Power is transferred to automobile front axle, and power is transferred to automobile axle by rear axle 5002 again, and then vehicle realizes 4 wheel driven work.Pass through TV The torque output forward or backwards of control motor 5001 can control the total driving torque inputted from power input shaft 5003 and exist Preceding bridge or rear axle arbitrarily distribute, and limiting case can all distribution a to drive axle realizes single bridge driving by total input torque. Above structure and connection relation realize universe of the total input torque of power assembly between front-rear axle and are actively randomly oriented distribution.
Embodiment two
As shown in Fig. 2, in the present embodiment, using the wheeled double planet wheel rows of mixing TV coupling mechanisms 3000 of the total sun, i.e. the second planet The sun gear 3021 of train 3020 is fixed together with the sun gear 3031 of third planet train 3030, sun gear 3021 and the sun It is hollow hollow shaft between wheel 3031, rear axle 5002 passes through from front to back inside hollow shaft, and is arranged to therebetween Friction and the mutual supporting role reduced when relatively rotating between the two is played to bearing.The planet carrier of second planetary gear train 3020 The hollow shaft end that the ring gear 2013 of 3024 centers and the first planetary gear train 2010 extends back is fixed together by spline. The planet carrier 3034 of third planet train 3030 and the rear axle 5002 extended through from its center to rear are connected to by spline Together.Structural schematic diagram is as shown in Figure 2.
Embodiment three
As shown in figure 3, in the present embodiment, using total internal tooth ring type double planet wheel rows of mixing TV coupling mechanisms 3000, i.e. the second planet The ring gear 3023 of train 3020 is fixed together with the ring gear 3033 of third planet train 3030, can be by 4 wheel driven system Arrangement matched bearings is supported ring gear 3023 and ring gear 3033 in system shell 6003.The row of second planetary gear train 3020 Carrier 3024 is connected with four-wheel drive system shell 6003.The planet carrier 4044 of fourth planet train 4040 and third planet train 3030 Planet carrier 3034 be fixed together.Structural schematic diagram is as shown in Figure 3.
The between centers torque universe actively distributes in due course four-wheel drive system and relates generally to four kinds of operating modes:Straight-line travelling TV controls Motor 5001 does not start, and turning driving TV control motors 5001 do not start, and straight-line travelling TV control motors 5001 start, Yi Jizhuan Curved traveling TV controls motor 5001 starts.The reality of in due course four-wheel drive system is actively distributed between centers torque universe shown in FIG. 1 below For the structural schematic diagram for applying example one, four kinds of operating modes are illustrated respectively:
(1) straight-line travelling TV controls motor 5001 and does not start.
When automobile in horizontal good road surface at the uniform velocity when driving, the attachment of antero posterior axis driving wheel and road surface is good, and axle load is not Significant change can occur, therefore, between antero posterior axis be not necessarily to carry out the fixed direction allocation of torque, TV is controlled at this time does not have in motor 5001 Electric signal is controlled, TV control motors 5001 do not work, and the torque transfer that power assembly is inputted through power input shaft 5003 is to defeated Enter sprocket wheel 1000, torque is all transmitted on output chain gear 6000 by input sprocket 1000 using transmission chain 6002, then into one Step passes to front axle 6001, to make automobile front axle driving wheel obtain driving torque.Automobile is preceding bridge driving condition at this time.
In terms of rotation speed relation, as positive direction, when retroversion is for the direction of rotation of front axle and rear axle when set driving automobile advance Negative direction.If rotating speed is n before and after automobile, i.e. the rotating speed n of the sun gear 2011 of the first planetary gear train 2010S1And planet carrier 2014 rotating speed nH1It is equal, i.e. nS1=nH1=n.In order to reduce inertia loss that motor free-running belt is come and anti-electronic as far as possible Potential energy consumes, and TV control motors 5001 should be avoided to dally, that is, conveys the hollow internal rotor of TV control motors 5001 is connected the The rotating speed n of the sun gear 4041 of four planetary gear trains 4040S4=0.Due to the ring gear 4043 and 4 wheel driven of fourth planet train 4040 System casing 6003 is connected, rotating speed nR4=0, therefore the rotating speed n of the planet carrier 4044 of fourth planet train 4040H4=0.Due to The ring gear 3033 of third planet train 3030 and the planet carrier 4044 of fourth planet train 4040 be connected, then ring gear 3033 Rotating speed nR3=0.Again because the ring gear 3023 of the second planetary gear train 3020 is connected with four-wheel drive system shell 6003, therefore ring gear 3023 rotating speed nR2=0.Again due to the planet carrier of the planet carrier 3024 and third planet train 3030 of the second planetary gear train 3020 3034 are fixed with one, therefore the rotating speed n of planet carrier 3024H2With the rotating speed n of planet carrier 3034H3It is identical, i.e. nH2=nH3, and due to Second planetary gear train 3020 and 3030 planet row characteristic parameter having the same of third planet train and planet row type, then can obtain The rotating speed n of the sun gear 3021 of two planetary gear trainsS2With the rotating speed n of sun gear 3031S3It is identical, i.e. nS2=nS3.Again because of the third line The sun gear 2011 of the sun gear 3031 of star wheel series 3030 and the first planetary gear train 2010 is connected as one by rear axle 5002, therefore The two rotating speed is identical, i.e. nS1=nS3, then n can be obtainedS1=nS2.Because of the ring gear 2013 and the second row of the first planetary gear train 2010 The sun gear 3021 of star wheel series 3020 is fixed with one, therefore the rotating speed n of ring gear 2013R1With the rotating speed n of sun gear 3021S2Phase Together, i.e. nR1=nS2, so for the first planetary gear train 2010, sun gear 2011 is identical with the rotating speed of ring gear 2013, That is nS1=nR1, then according to single planetary row rotating speed formula, it is identical with the rotating speed of planet carrier 2014 to obtain sun gear 2011, i.e., nS1=nH1.Transmission ratio additionally, due to input sprocket 1000 and output chain gear 6000 is 1, so when automobile before and after rotating speed it is complete It is exactly the same.The identical conclusion of front and back rotating speed is coincide when this is with the automobile straight-line travelling derived above, so when can ensure TV Control motor 5001 not will produce idle running, save energy.
In terms of torque relationship, if the torque that power assembly is inputted through power input shaft 5003 at this time is T0(T0For positive value), then The torque for passing to input sprocket 1000 is T0, torque is all transmitted to output by input sprocket 1000 using transmission chain 6002 On sprocket wheel 6000, front axle 6001 is further passed to, then the input torque T that axle is obtainedBefore、TAfterwardsRespectively TBefore=T0, TAfterwards=0, it is seen that between centers torque universe of the present invention actively distributes in due course four-wheel drive system and is now in two drive states, and preceding bridge is Drive axle.The distribution flow direction of torque at this time is as shown in Figure 4.
(2) turning driving TV controls motor 5001 and does not start.
Under this operating mode, when due to automobile turning before and after automobile driving wheel apart from the instantaneous distance, that is, front-rear axle of automobile turning Average turning radius and differ, the mean speed of two wheels of preceding bridge is slightly above the mean speed of two wheels of rear axle, this Speed discrepancy can also be slightly had by leading to connect the front and back rotating speed in the present invention of front-rear axle.The speed discrepancy by center differential 2000 Realization realizes auto―adaptive test under the premise of not changing front and back shaft torque distribution, that is, connects the first planetary gear train of front axle 6001 Both 2010 planet carrier 2014 and the sun gear 2011 of the first planetary gear train 2010 of connection rear axle 5002 rotating speed have certain turn Speed difference, i.e. nH1≠nS1, then according to single planetary row rotating speed formula, the ring gear 2013 and the sun of the first planetary gear train 2010 can be obtained Both wheels 2011 rotating speed has certain speed discrepancy, i.e. nR1≠nS1, due to the ring gear 2013 and sun gear of the first planetary gear train 2010 2011 connect with 3031 spline of sun gear of the sun gear 3021 of the second planetary gear train 3020 and third planet train 3030 respectively, Therefore at this point, the sun gear 3021 of the second planetary gear train 3020 and the sun gear 3031 of third planet train 3030 are understood, there are one minimum Speed discrepancy, i.e. nS2≠nS3.Again because the second planetary gear train 3020 it is identical with 3030 characteristic parameter of third planet train and Two planet carriers 3024 and 3034 are fixed with one, i.e. the two rotating speed nH2=nH3, then according to single planetary row rotating speed formula, can obtain Both the ring gear 3023 of second planetary gear train 3020 and the ring gear 3033 of third planet train 3030 rotating speed have certain rotating speed Difference, i.e. nR2≠nR3, because the ring gear 3023 of the second planetary gear train 3020 is connected with four-wheel drive system shell 6003, therefore nR2=0, The rotating speed n of the ring gear 3033 of third planet train 3030 can then be obtainedR3≠0.Due to the planet carrier of fourth planet train 4040 4044 is connected with the ring gear 3033 of third planet train 3030, then the rotating speed n of the planet carrier 4044 of fourth planet train 4040H4 =nR3≠ 0, at this time since the ring gear 4043 of fourth planet train 4040 and four-wheel drive system shell 6003 are connected, therefore fourth planet The rotating speed n of the sun gear 4041 of train 4040S4≠ 0, i.e., the TV being connect with 4041 spline of sun gear controls the hollow of motor 5001 Internal rotor will produce slight idle running.But because idler revolutions are minimum, therefore its energy consumption generated is also minimum, can ignore substantially, And generally turning process compare the straight-line travelling operating mode frequency of occurrences and the time it is relatively fewer, therefore after the turning process, Front and back rotating speed becomes identical, and TV control 5001 rotating speeds of motor can revert to rapidly 0, no longer generate idle running, therefore, have no effect on The economy of vehicle.
When turning driving TV control motors 5001 do not start, although the rotating speed of antero posterior axis is with the presence of certain speed discrepancy, institute The between centers torque universe stated actively distributes the torque relations of distribution of in due course four-wheel drive system, not with straight-line travelling TV controls motor 5001 The operating mode of startup is identical, i.e. TBefore=T0, TAfterwards=0, automobile drives state still in two at this time, and preceding bridge is drive axle.At this time Torque distribution flow direction it is as shown in Figure 4.
(3) straight-line travelling TV controls motor 5001 and starts.
Automobile in the process of moving, if moved after the axle load of automobile or front axle driving wheel and the attachment coefficient on ground it is smaller, Then it is likely to occur that front axle driving wheel trackslips since torque is excessive, rear axle driving wheel is unable to give full play since torque is insufficient The phenomenon that adhewsive action between ground.At this time in order to improve the dynamic property and passability of automobile, need ensureing total driving In the case that torque is constant, increase the driving torque of rear axle 5002, reduces the driving torque of front axle 6001, i.e., pass through power assembly Input sprocket 1000 distributes to the driving torque part orientation of automobile front axle 6001 and is transferred to automobile hind axle 5002.
Under any state, the torque that power input shaft 5003 inputs is fully allocated to front axle 6001, i.e. T alwaysBefore=T0, TAfterwards=0.If necessary to realize the fixed direction allocation of front and back between centers torque by above-mentioned working condition requirement, just need to motor be controlled by TV at this time 5001 complete.Now with moved after automobile axle load or front axle driving wheel and the smaller duty requirements of the attachment coefficient on ground for into Row analysis, to illustrate that between centers torque universe of the present invention actively distributes in due course four-wheel drive system antero posterior axis in automobile straight-line travelling Between torque fixed direction allocation operation principle.
It is moved after automobile axle load or front axle driving wheel and when the smaller attachment coefficient on ground, it should be by automobile front axle 6001 Part driving torque fixed direction allocation is to automobile hind axle 5002.The TV control motors 5001 of electric signal control at this time export negative sense torque-T (T is positive value), the then sun gear for the fourth planet train 4040 being connect with the hollow internal rotor spline of TV control motors 5001 4041 torque TS4=-T obtains the torque T of the planet carrier 4044 of fourth planet train 4040 according to single planetary row torque formulaH4= (k4+ 1) T (wherein k4For the planet row characteristic parameter of fourth planet train 4040), then the planet carrier 4044 of fourth planet train 4040 It is T to export to the torque of the ring gear 3033 of third planet train 3030R3=-(k4+1)T.If the second planetary gear train 3020 and third The planet row characteristic parameter of planetary gear train 3030 is k, i.e. k2=k3=k obtains third planet then according to single planetary row torque formula The torque of the sun gear 3031 and planet carrier 3034 of train 3030 is respectively So the torque that sun gear 3031 exports in third planet train 3030 isThen it is input to the torque increment of rear axle 5002 ForPlanet carrier 3034 export torque beThen planet in the second planetary gear train 3020 The input torque of frame 3024 isAccording to single planetary row torque formula, the second planetary gear train 3020 is obtained Sun gear 3021 torqueThen sun gear 3021 export torque beThen it is input to the first row The torque of the ring gear 2013 of star wheel series 2010 isAccording to single planetary row torque formula, the first planetary gear is obtained The torque for being 2010 sun gear 2011 and planet carrier 2014 is respectively Then The output torque of sun gear 2011 is in first planetary gear train 2010The torque increment for being then input to rear axle 5002 isTherefore the total torque increment T of rear axle 5002 is inputed toAfterwards' be third planet train 3030 sun gear 3031 Input to the torque increment T of rear axle 5002Afterwards 1', the sun gear 2011 of the first planetary gear train 2010 input to the torque of rear axle 5002 Increment TAfterwards 2The sum of ' two parts, i.e.,The output torque of planet carrier 2014 isThe torque increment for being then input to input sprocket 1000 isTherefore, before being transmitted to The torque increment of axis 6001 isSubtract through TV control motors it can be seen that TV controls motor 5001 Fast mechanism 4000, double planet wheel rows of mixing TV coupling mechanisms 3000 and center differential 2000 are input to the torque increment etc. of front axle and rear axle It is big reversed (the sign TV as shown in Figure 5 of its torque increment control marked on motor 5001 to front and back shaft torque distribution stream just, Shown in negative sign), i.e. TBefore'=- TAfterwards′.Above-mentioned torque increment distributed to power assembly antero posterior axis torque synthesize after, can obtain at this time The driving torque of front axle 6001 becomesThe driving torque of rear axle 5002 becomesIt can be seen that TV control 5001 off positions of motor that compare, the at this time driving of front axle 6001 turn Square declines, and 5002 driving torque of rear axle increases, that is, realizes under conditions of not changing total driving torque, and torque is from front axle 6001 It shifts and distributes to the orientation of rear axle 5002.Torque distribution flow direction at this time is as shown in Figure 5.Under limiting case, control TV control electricity The output torque of machine 5001It may be implemented before distributing to power assembly through input sprocket 1000 The torque of axis 6001 is fully transferred to rear axle 5002, to realize rear bridge driven.
A bit need to be remarked additionally, if when automobile axle load Forward or rear axle driving wheel and the smaller attachment coefficient on ground, Because automobile is originally at forerunner's pattern, therefore without carrying out torque fixed direction allocation between axle, TV controls motor at this time 5001 do not work.Under this operating mode, the between centers torque universe actively distributes rotation speed relation and the torque of in due course four-wheel drive system The relations of distribution, it is identical as the operating mode that straight-line travelling TV control motors 5001 do not start, it no longer repeats herein.Torque distribution at this time Flow direction is as shown in Figure 4.
(4) turning driving TV controls motor 5001 and starts.
Under this operating mode, the between centers torque universe actively distributes the rotation speed relation and power assembly of in due course four-wheel drive system Whole torques are distributed to the torque relations of distribution of front axle 6001, the operating mode phase not started with turning driving TV control motors 5001 Together, it no longer repeats herein.The output torque that TV controls motor 5001 waits big opposite torque increment for front and back shaft torque It is identical with the operating mode that straight-line travelling TV control motors 5001 start, it also no longer repeats herein.Torque distribution flow direction at this time As shown in Figure 5.
Although the embodiments of the present invention have been disclosed as above, but its is not only in the description and the implementation listed With it can be fully applied to various fields suitable for the present invention, for those skilled in the art, can be easily Realize other modification, therefore without departing from the general concept defined in the claims and the equivalent scope, the present invention is simultaneously unlimited In specific details and legend shown and described herein.

Claims (9)

1. a kind of between centers torque universe actively distributes in due course four-wheel drive system, which is characterized in that including:
Power input shaft;
Front axle;
Rear axle;
First planetary gear train comprising the first sun gear, the first planetary gear, first planet carrier and the first ring gear;
Wherein, the first planet carrier is fixedly connected with the power input shaft, while being fixed together with input sprocket;It is described First sun gear is fixedly connected with the rear axle, and first ring gear is equipped with hollow shaft, the hollow shaft of first ring gear Empty set is in the rear on axis;
Second planetary gear train comprising the second sun gear, the second planetary gear, the second planet carrier and the second ring gear;
Wherein, second sun gear is fixedly connected with the hollow shaft of first ring gear, second ring gear and 4 wheel driven System casing is fixedly connected;
Third planet train comprising third sun gear, the third line star-wheel, third planet carrier and third ring gear;
Wherein, the third sun gear is fixedly connected with the rear axle;The third planet carrier is fixed with second planet carrier Connection;
Wherein, second planetary gear train and third planet train planet row characteristic parameter having the same and planet row class Type;
TV controls motor, is equipped with hollow output shaft, and the hollow output shaft empty set is in the rear on axis, and the hollow output Axis is connect by deceleration mechanism with the third ring gear;
The deceleration mechanism includes fourth planet train comprising the 4th sun gear, fourth line star-wheel, fourth line carrier and the 4th Ring gear;
Wherein, the 4th sun gear is fixedly connected with the hollow output shaft;The fourth line carrier and the third internal tooth Circle is fixedly connected;4th ring gear is fixedly connected with the four-wheel drive system shell;
Input sprocket is fixedly connected with the first planet carrier;
Output chain gear is fixedly connected with the front axle;
Wherein, the input sprocket and the output chain gear carry out power transmission by transmission chain.
2. between centers torque universe according to claim 1 actively distributes in due course four-wheel drive system, which is characterized in that the input The transmission ratio of sprocket wheel and the output chain gear is 1.
3. between centers torque universe according to claim 1 actively distributes in due course four-wheel drive system, which is characterized in that described first It is connected by bearing between the hollow shaft of ring gear and the rear axle.
4. between centers torque universe according to claim 1 actively distributes in due course four-wheel drive system, which is characterized in that the TV controls Motor processed is cartridge type inner rotor motor.
5. between centers torque universe according to claim 4 actively distributes in due course four-wheel drive system, which is characterized in that described hollow It is connected by bearing between output shaft and the rear axle.
6. between centers torque universe according to claim 5 actively distributes in due course four-wheel drive system, which is characterized in that the TV The stator and shell for controlling motor are fixedly connected with the four-wheel drive system shell.
7. between centers torque universe according to claim 6 actively distributes in due course four-wheel drive system, which is characterized in that the TV controls The hollow output shaft of motor processed is connect with the centre bore of the 4th sun gear by spline.
8. a kind of between centers torque universe actively distributes in due course four-wheel drive system, which is characterized in that including:
Power input shaft;
Front axle;
Rear axle;
First planetary gear train comprising the first sun gear, the first planetary gear, first planet carrier and the first ring gear;
Wherein, the first planet carrier is fixedly connected with the power input shaft, while being fixed together with input sprocket;It is described First sun gear is fixedly connected with the rear axle, and first ring gear is equipped with hollow shaft, the hollow shaft of first ring gear Empty set is in the rear on axis;
Second planetary gear train comprising the second sun gear, the second planetary gear, the second planet carrier and the second ring gear;
Wherein, second sun gear is equipped with hollow shaft, and the hollow shaft empty set of second sun gear is described in the rear on axis It is connected by bearing between the hollow shaft of second sun gear and the rear axle;Second planet carrier and first ring gear Hollow shaft is fixedly connected, and second ring gear is fixedly connected with four-wheel drive system shell;
Third planet train comprising third sun gear, the third line star-wheel, third planet carrier and third ring gear;
Wherein, the third sun gear is fixedly connected with the hollow shaft of second sun gear;The third planet carrier with it is described Rear axle is fixedly connected;
Wherein, second planetary gear train and third planet train planet row characteristic parameter having the same and planet row class Type;
TV controls motor, is equipped with hollow output shaft, and the hollow output shaft empty set is in the rear on axis, and the hollow output Axis is connect by deceleration mechanism with the third ring gear;
The deceleration mechanism includes fourth planet train comprising the 4th sun gear, fourth line star-wheel, fourth line carrier and the 4th Ring gear;
Wherein, the 4th sun gear is fixedly connected with the hollow output shaft;The fourth line carrier and the third internal tooth Circle is fixedly connected;4th ring gear is fixedly connected with the four-wheel drive system shell;
Input sprocket is fixedly connected with the first planet carrier;
Output chain gear is fixedly connected with the front axle;
Wherein, the input sprocket and the output chain gear carry out power transmission by transmission chain.
9. a kind of between centers torque universe actively distributes in due course four-wheel drive system, which is characterized in that including:
Power input shaft;
Front axle;
Rear axle;
First planetary gear train comprising the first sun gear, the first planetary gear, first planet carrier and the first ring gear;
Wherein, the first planet carrier is fixedly connected with the power input shaft, while being fixed together with input sprocket;It is described First sun gear is fixedly connected with the rear axle, and first ring gear is equipped with hollow shaft, the hollow shaft of first ring gear Empty set is in the rear on axis;
Second planetary gear train comprising the second sun gear, the second planetary gear, the second planet carrier and the second ring gear;
Wherein, second sun gear is fixedly connected with the hollow shaft of first ring gear, second planet carrier and 4 wheel driven System casing is fixedly connected;
Third planet train comprising third sun gear, the third line star-wheel, third planet carrier and third ring gear;
Wherein, the third sun gear is fixedly connected with the rear axle;The third ring gear is fixed with second ring gear Connection, is connected between second ring gear and the third ring gear and the four-wheel drive system shell by bearing;
Wherein, second planetary gear train and third planet train planet row characteristic parameter having the same and planet row class Type;
TV controls motor, is equipped with hollow output shaft, and the hollow output shaft empty set is in the rear on axis, and the hollow output Axis is connect by deceleration mechanism with the third planet carrier;
The deceleration mechanism includes fourth planet train comprising the 4th sun gear, fourth line star-wheel, fourth line carrier and the 4th Ring gear;
Wherein, the 4th sun gear is fixedly connected with the hollow output shaft;The fourth line carrier and the third planet Frame is fixedly connected;4th ring gear is fixedly connected with the four-wheel drive system shell;
Input sprocket is fixedly connected with the first planet carrier;
Output chain gear is fixedly connected with the front axle;
Wherein, the input sprocket and the output chain gear carry out power transmission by transmission chain.
CN201810443950.XA 2018-05-10 2018-05-10 A kind of between centers torque universe actively distributes in due course four-wheel drive system Pending CN108501716A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201810443950.XA CN108501716A (en) 2018-05-10 2018-05-10 A kind of between centers torque universe actively distributes in due course four-wheel drive system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201810443950.XA CN108501716A (en) 2018-05-10 2018-05-10 A kind of between centers torque universe actively distributes in due course four-wheel drive system

Publications (1)

Publication Number Publication Date
CN108501716A true CN108501716A (en) 2018-09-07

Family

ID=63400569

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201810443950.XA Pending CN108501716A (en) 2018-05-10 2018-05-10 A kind of between centers torque universe actively distributes in due course four-wheel drive system

Country Status (1)

Country Link
CN (1) CN108501716A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US11358468B2 (en) 2019-06-05 2022-06-14 Jilin University Two-speed transmission system integrated with inner rotor hub motor and electric vehicle using same

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4914979A (en) * 1987-08-07 1990-04-10 Gkn Axles Limited Axle drive unit
CN104675951A (en) * 2015-02-11 2015-06-03 吉林大学 Electric differential with double-row planetary gear torque directional distribution mechanism
CN104747679A (en) * 2013-12-27 2015-07-01 陕西汉德车桥有限公司 Inter-axle differential with NGW planet gears
CN107061675A (en) * 2017-04-21 2017-08-18 吉林大学 A kind of electric differential mechanism with torque fixed direction allocation function
CN208164759U (en) * 2018-05-10 2018-11-30 吉林大学 A kind of between centers torque universe actively distributes in due course four-wheel drive system

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4914979A (en) * 1987-08-07 1990-04-10 Gkn Axles Limited Axle drive unit
CN104747679A (en) * 2013-12-27 2015-07-01 陕西汉德车桥有限公司 Inter-axle differential with NGW planet gears
CN104675951A (en) * 2015-02-11 2015-06-03 吉林大学 Electric differential with double-row planetary gear torque directional distribution mechanism
CN107061675A (en) * 2017-04-21 2017-08-18 吉林大学 A kind of electric differential mechanism with torque fixed direction allocation function
CN208164759U (en) * 2018-05-10 2018-11-30 吉林大学 A kind of between centers torque universe actively distributes in due course four-wheel drive system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US11358468B2 (en) 2019-06-05 2022-06-14 Jilin University Two-speed transmission system integrated with inner rotor hub motor and electric vehicle using same

Similar Documents

Publication Publication Date Title
CN108266512B (en) Centralized full-time electric four-wheel drive system
CN106965661B (en) Double-motor coupling drive axle with torque directional distribution function
CN113415107B (en) Dual-mode electric drive axle capable of carrying out torque parallel connection and torque directional distribution
CN208180782U (en) A kind of between centers torque universe actively distributes in due course four-wheel drive system
CN113400864A (en) Multi-mode torque-vectoring electric transaxle using a one-way clutch
CN108297620B (en) Torque directional distribution electric drive axle based on double-rotor motor
CN208164754U (en) A kind of between centers torque universe actively distributes full-time four-wheel drive system
CN108394274A (en) A kind of between centers torque universe actively distributes full-time four-wheel drive system
CN108297619A (en) A kind of duplex planet train torque fixed direction allocation electric drive axle
CN208164759U (en) A kind of between centers torque universe actively distributes in due course four-wheel drive system
CN208180783U (en) A kind of between centers torque universe actively distributes in due course four-wheel drive system
CN208180784U (en) A kind of between centers torque universe actively distributes in due course four-wheel drive system
CN208164758U (en) A kind of between centers torque universe actively distributes in due course four-wheel drive system
CN208164757U (en) A kind of between centers torque universe actively distributes in due course four-wheel drive system
CN208180781U (en) A kind of between centers torque universe actively distributes full-time four-wheel drive system
CN208180780U (en) A kind of between centers torque universe actively distributes full-time four-wheel drive system
CN208180775U (en) A kind of between centers torque universe actively distributes full-time four-wheel drive system
CN208164755U (en) A kind of between centers torque universe actively distributes full-time four-wheel drive system
CN208149072U (en) A kind of between centers torque universe actively distributes full-time four-wheel drive system
CN208277853U (en) A kind of between centers torque universe actively distributes full-time four-wheel drive system
CN208180777U (en) A kind of between centers torque universe actively distributes full-time four-wheel drive system
CN208180776U (en) A kind of between centers torque universe actively distributes full-time four-wheel drive system
CN208180778U (en) A kind of between centers torque universe actively distributes full-time four-wheel drive system
CN208180779U (en) A kind of between centers torque universe actively distributes full-time four-wheel drive system
CN108501716A (en) A kind of between centers torque universe actively distributes in due course four-wheel drive system

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
RJ01 Rejection of invention patent application after publication
RJ01 Rejection of invention patent application after publication

Application publication date: 20180907