CN206086338U - Power drive system and vehicle - Google Patents
Power drive system and vehicle Download PDFInfo
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- CN206086338U CN206086338U CN201620666339.XU CN201620666339U CN206086338U CN 206086338 U CN206086338 U CN 206086338U CN 201620666339 U CN201620666339 U CN 201620666339U CN 206086338 U CN206086338 U CN 206086338U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/60—Other road transportation technologies with climate change mitigation effect
- Y02T10/62—Hybrid vehicles
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Abstract
The utility model discloses a power drive system and vehicle. This power drive system includes: the engine, first and second input shafts, but in first input shaft of engine optionally joint and the second input shaft at least one are provided with on the first input shaft and one keep off, three keep off, five keep off and seven keep off driving gears, be provided with on the second input shaft two keep off with four or six fender driving gears, a plurality of output shafts, a last overhead cover in position that corresponds with first -gear driving gear in the output shaft is provided with and reverses gear output gear and still be provided with the synchronous ware that reverses gear, the first gear of reverse gear shaft keeps off position initiative gear engagement, the reverse gear shaft second gear and the output gear engagement that reverses gear with the another one. The utility model discloses a power drive system has seven fender positions of ging forward for power is more smooth -going when the transmission, and high transmission efficiency is a plurality of if the transmission speed ratio of seven differences can satisfy vehicle demand to power and moment of torsion under different road conditions better moreover.
Description
Technical field
This utility model is related to automobile technical field, more particularly, to a kind of power-driven system and vehicle.
Background technology
With the continuous consumption of the energy, the development and utilization of new forms of energy vehicle has been increasingly becoming a kind of trend.Hybrid power
Automobile is driven by electromotor and/or motor as the one kind in new forms of energy vehicle, with various modes, can be improved
Transmission efficiency and fuel economy.
But, in correlation technique known for inventor, the variator general structure in hybrid vehicle is complicated, transmission
Pattern is few, and transmission efficiency is low.Additionally, the variator in conventional hybrid automobile mostly is five gears or six gears, transmission efficiency is not
It is high.
Utility model content
This utility model is intended at least solve one of above-mentioned technical problem of the prior art to a certain extent.For this purpose,
A purpose of the present utility model is to propose a kind of power-driven system, and the power-driven system transmission mode enriches, and has
There are multiple such as seven forward ranges, preferably can meet when vehicle is travelled to power and the demand of moment of torsion.
Another purpose of the present utility model is to propose a kind of vehicle, and the vehicle includes above-mentioned power-driven system.
According to the power-driven system of this utility model embodiment, including:Electromotor;First input shaft and the second input
Axle, the electromotor are arranged to be selectively engageable at least one of first input shaft and second input shaft,
Second input shaft is set on first input shaft, and the gear driving gear on first input shaft is a gear active
Gear, three gear driving gears, five gear driving gears and seven gear driving gears, are provided with two gear driving tooths on second input shaft
Wheel and four or six gear driving gears;Multiple output shafts, are provided with gear driven gear on each described output shaft, the gear is driven
Gear is accordingly engaged with gear driving gear, the upper position overhead corresponding with a gear driving gear of in the output shaft
Set be provided with reverse output gear and the output shaft it is one on be additionally provided with for engaging the output gear that reverses gear
The reverse gear synchronizer of wheel;Reverse gear shaft, is fixedly installed reverse gear shaft first gear and reverse gear shaft second gear, institute on the reverse gear shaft
State reverse gear shaft first gear to engage with another gear driving gear, the reverse gear shaft second gear and the output gear that reverses gear
Wheel engagement.
Had according to the power-driven system of this utility model embodiment multiple such as seven forward ranges so that power is being passed
More smooth out when passing, transmission efficiency, and it is multiple as seven different transmission speed ratios can preferably meet vehicle in difference
To power and the demand of moment of torsion under road conditions.
Additionally, can also have following additional technical feature according to the power-driven system of this utility model embodiment:
According to some embodiments of the present utility model, the output shaft includes:First output shaft and the second output shaft, it is described
First output shaft overhead set is provided with a gear driven gear, two gear driven gears, three gear driven gears and six gear driven gears, institute
State the second output shaft overhead set and be provided with four gear driven gears, five gear driven gears and seven gear driven gears;One gear is driven
One or three gear lock units, the two gear driven gear and described six gear driven tooths are provided between gear and the three gears driven gear
Two or six gear lock units are provided between wheel, five or seven gears are provided between the five gear driven gear and the seven gears driven gear same
Step device, the side of the four gears driven gear are provided with four gear lock units.
According to some embodiments of the present utility model, the reverse output gear empty set on second output shaft and with
The four gears driven gear shares four gear lock units, so as to described four gear lock units constitute the reverse gear synchronizer.
According to some embodiments of the present utility model, the reverse output gear positioned at described four gear driven gears away from
The side of electromotor.
According to some embodiments of the present utility model, the reverse gear shaft first gear is engaged with two gear driving gear, and
The two gear driving gear, it is described four or six gear driving gear, it is described one gear driving gear, it is described five gear driving gear, described three
Gear driving gear and the seven gear driving gear are incremented by with the distance of the electromotor.
According to some embodiments of the present utility model, the first output shaft output gear on first output shaft, is fixedly installed
Wheel, is fixedly installed the second output shaft output gear on second output shaft, the first output shaft output gear, described the
Two output shaft output gears are engaged with the main reducing gear driven gear of vehicle.
According to some embodiments of the present utility model, power-driven system also includes:Double clutch, the double clutch tool
There are input, the first outfan and the second outfan, the electromotor is connected with the input, first outfan and institute
State the first input shaft to be connected, second outfan is connected with second input shaft.
According to some embodiments of the present utility model, the reverse output gear is common with an adjacent gear driven gear
Gear lock unit, the shared gear lock unit is used to constitute the reverse gear synchronizer.
According to some embodiments of the present utility model, power-driven system also includes:Motor power axle, the motor power
Axle overhead set is provided with motor power axle first gear and motor power axle second gear, is additionally provided with the motor power axle
Motor power axle lock unit between the motor power axle first gear and the motor power axle second gear, wherein
The motor power axle second gear is arranged to link with one of gear driven gear;And first motor generator, institute
State the first motor generator to be arranged to link with the motor power axle.
According to the vehicle of this utility model embodiment, including the power-driven system in above-described embodiment.
Description of the drawings
Fig. 1 is the schematic diagram of the power-driven system according to this utility model one embodiment;
Fig. 2 is the schematic diagram of the power-driven system according to this utility model another embodiment;
Fig. 3 is the schematic diagram of the power-driven system according to this utility model another embodiment;
Fig. 4 is the schematic diagram of the power-driven system according to this utility model further embodiment;
Fig. 5 is the schematic diagram of the power-driven system according to this utility model further embodiment.
Specific embodiment
Embodiment of the present utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein ad initio
Same or similar element or the element with same or like function are represented to same or similar label eventually.Below by ginseng
The embodiment for examining Description of Drawings is exemplary, it is intended to for explaining this utility model, and it is not intended that to this utility model
Restriction.
In description of the present utility model, it is to be understood that term " " center ", " longitudinal direction ", " horizontal ", " length ", " width
Degree ", " thickness ", " on ", D score, "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outward ", " suitable
The orientation or position relationship of the instruction such as hour hands ", " counterclockwise " is based on orientation shown in the drawings or position relationship, merely to just
In description this utility model and simplified description, rather than indicate or imply that the device or element of indication there must be specifically side
Position, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.
Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that indicating or implying relative importance
Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or
Implicitly include one or more this feature.In description of the present utility model, " multiple " are meant that at least two, example
Such as two, three etc., unless otherwise expressly limited specifically.
In this utility model, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection ", " Gu
It is fixed " etc. term should be interpreted broadly, it is for example, it may be fixedly connected, or be detachably connected or integral;Can be
It is mechanically connected, or electrically connects or can communicate with one another;Can be joined directly together, it is also possible to by the indirect phase of intermediary
Even, can be connection or the interaction relationship of two elements of two element internals.For one of ordinary skill in the art
For, concrete meaning of the above-mentioned term in this utility model can be understood as the case may be.
In this utility model, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or it
D score can include the first and second feature directly contacts, it is also possible to not be directly contact including the first and second features but logical
The other characterisation contact crossed between them.And, fisrt feature second feature " on ", " top " and " above " be including
One feature is directly over second feature and oblique upper, or is merely representative of fisrt feature level height higher than second feature.First is special
Levy second feature " under ", " lower section " and " below " including fisrt feature immediately below second feature and obliquely downward, or only
Represent that fisrt feature level height is less than second feature.
The power-driven system 100 according to this utility model embodiment is described in detail with reference to Fig. 1-Fig. 5, should
Power-driven system 100 is suitable for the vehicle of such as hybrid vehicle, and as the dynamical system of vehicle, is that vehicle is normal
Traveling provides sufficient power and electric energy.
Two large divisions is mainly included according to the power-driven system 100 of this utility model embodiment, one can be power source,
Power source can be electromotor 4, motor generator etc., its two can for variator (include multiple input shafts, multiple output shafts, gear
Position gear pair etc.), variator is used for the speed changing function for realizing exporting power source power, meets vehicle driving requirements or charging will
Ask.
For example, in certain embodiments, as Figure 2-Figure 5, power-driven system 100 can include electromotor 4, first
Motor generator 51 and variator, but not limited to this.
With reference to shown in Fig. 1, in certain embodiments, variator mainly includes multiple input shafts (for example, the first input shaft
22) and motor power axle 3 and each 11, the second input shaft is 12), (for example, the first output shaft 21, the second output shaft for multiple output shafts
Associated gear and shifting element (e.g., lock unit) on axle.
When entering action edge between electromotor 4 and input shaft and transmitting, electromotor 4 is arranged to be selectively engageable multiple defeated
Enter at least one of axle.In other words, for example, when electromotor 4 transmits power to input shaft, electromotor 4 can be optionally
Engage to transmit power with multiple input shafts, or electromotor 4 can also optionally with multiple input shafts in
Two or more input shafts simultaneously engage with to transmit power.
For example, in the example of Fig. 1-Fig. 5, multiple input shafts can include 12 liang of the first input shaft 11 and the second input shaft
Root input shaft, electromotor 4 optionally can engage to transmit power with one of the first input shaft 11 and the second input shaft 12.Or
Person, especially, electromotor 4 can also simultaneously engage with to transmit power with the first input shaft 11 and the second input shaft 12.Certainly, should
It is understood by, electromotor 4 can be also disconnected with the first input shaft 11 and the second input shaft 12 simultaneously.
For the ordinary skill in the art, the engagement state and power-driven system of electromotor 4 and input shaft
100 concrete operating mode is related, and this is described in detail in conjunction with specific embodiments below, is no longer described in detail here.
Can be driven by shift gear pair between input shaft and output shaft.For example, it is respectively provided with each input shaft
There is gear driving gear, on each output shaft, be provided with gear driven gear, gear driven gear and gear driving gear pair
Ground engagement is answered, so that multipair speed is constituted than different gear pairs.
In some embodiments of the present utility model, power-driven system 100 can have seven forward gears pairs, i.e.,
Gear pairs and seven gear teeth are kept off with first gear pair, secondary second gear, three gear gear pairs, four gear gear pairs, five gear gear pairs, six
Wheel set.
As Figure 1-Figure 5, an overhead set in output shaft is provided with reverse output gear 8, and the output shaft
It is additionally provided with for engaging the reverse gear synchronizer the four of Fig. 1 (such as gear lock unit 4c) of reverse output gear 8, in other words, reverses gear
Lock unit synchronously corresponding reverse output gear 8 and the output shaft, so that output shaft can be synchronous with reverse output gear 8
Rotate, and then the power that reverses gear can be exported from the output shaft.
In certain embodiments, such as Fig. 1-Fig. 5, reverse output gear 8 is one, and a reverse output gear 8 can be with
On the second output shaft 22, reverse gear synchronizer can be four gear lock unit 4c (that is, gear lock unit) to empty set.
Reverse gear shaft 89 is arranged to a linkage in input shaft and is also linked with reverse output gear 8, for example, Jing inputs
Power on one in axle can pass to reverse output gear 8 by reverse gear shaft 89, and so as to reverse gear, power can
Export from reverse output gear 8.In example of the present utility model, reverse output gear 8 is empty set on the second output shaft 22
, and reverse gear shaft 89 is linked with the second input shaft 12, the power that reverses gear of such as output of electromotor 4 can be by the second input
Export to reverse output gear 8 after axle 12, reverse gear shaft 89.
It should be noted that above-mentioned " linkage " can be understood as multiple parts (for example, two) coupled movements, with two
As a example by part linkage, when a part is moved wherein, another part is also moved therewith.
For example, in some embodiments of the present utility model, the linkage of gear and axle can be understood as when gear rotates,
The axle linked with which will also rotate, or the gear linked with which when the axle rotates also will rotation.
And for example, another axle that axle can be understood as linking with which when an axle rotates wherein with axle linkage also will
Rotation.
For another example, link with which when gear and gear-linked can be understood as that a gear rotates wherein another
Gear also will rotation.
In description below this utility model about " linkage ", if no specified otherwise, is understood in this way.
Further, as Figure 1-Figure 5, reverse gear shaft first gear 81, reverse gear shaft first can be provided with reverse gear shaft 89
Gear 81 can with input shaft in it is one on gear driving gear engaged transmission, further, reverse gear shaft first gear 81
The other gear driving gear engaged transmission kept off outside driving gear 1a with removing one, such as, in the example of Fig. 1-Fig. 5, reversed gear
Axle first gear 81 can be with the direct engaged transmission of two gear driving gear 2a on the second input shaft 12, but not limited to this.
Reverse gear shaft second gear 82 is additionally provided with reverse gear shaft 89, reverse gear shaft second gear 82 is fixed on reverse gear shaft 89,
And reverse gear shaft second gear 82 is accordingly engaged with reverse output gear 8.
As described in Fig. 1-Fig. 5, reverse output gear 8 be empty set on output shaft, therefore to reverse output gear 8 from
The output shaft of its empty set will reverse gear power output, need to arrange reverse gear synchronizer (such as four gear lock unit 4c) synchronous output of reversing gear
Gear 8 and corresponding output shaft.As preferred embodiment, reverse output gear 8 and an adjacent gear driven gear
(such as four gear driven gear 4b) share gear lock unit, in other words, for being arranged in same output shaft with reverse output gear 8
On gear driven gear for, due to the same empty set of gear driven gear on the output shaft and need gear lock unit engage
Output shaft to export power, therefore reverse output gear 8 can neighbouring gear driven gear arrange, so as to gear driven gear
Shared gear lock unit, the clutch collar of such gear lock unit can engage the output gear that reverses gear when moving to the left or to the right vertically
8 or corresponding gear driven gears of wheel.
Thus, it is possible to reduce the quantity of the quantity and shifting fork mechanism of lock unit so that the axial chi of power-driven system 100
Very little and radial dimension is relatively smaller, and structure is compacter, and control is more convenient, reduces cost.
It is, of course, understood that reverse gear synchronizer of the present utility model can also be independently of the list of gear lock unit
Only lock unit.
The specific embodiment of reverse gear synchronizer is constituted with regard to gear lock unit, accompanying drawing is combined below and is retouched in detail
State, no longer describe in detail here.
For the position of reverse output gear 8, referring to the embodiment of Fig. 1-Fig. 5, reverse output gear 8 is arranged in one
On the room of gear driving gear 1a, in other words, reverse output gear 8 is disposed therein an output shaft (such as the second output shaft 22)
Ad-hoc location on, the ad-hoc location diametrically with one gear driving gear 1a it is corresponding (but not engaging).As a result, reversing gear
Axle 89 is relatively much shorter, and 100 axial dimension of power-driven system is less.
Below motor power axle 3 is described in detail.As Figure 2-Figure 5,3 overhead of motor power axle set is provided with electricity
Mechanomotive force axle first gear 31, motor power axle second gear 32.Motor power axle first gear 31 can be driven with main reducing gear
74 engaged transmission of gear.
Motor power axle second gear 32 is arranged to link with one of gear driven gear, with according to this practicality
When the vehicle of the power-driven system 100 of new embodiment is in some operating modes, (concrete operating mode will combine specific real below
Apply example to be described in detail), the gear that can link in motor power axle second gear 32 and with which of power of power source output from
Transmitted between moving gear, now motor power axle second gear 32 is linked with the gear driven gear.
Motor power axle second gear 32 keeps off driven gears with a gear driven gear 1b, two gear driven gear 2b, three respectively
The gear driven gear 4b linkages of 3b or four.By taking Fig. 2 as an example, motor power axle second gear 32 can be direct with two gear driven gear 2b
Engagement passes through intermediate transmission part indirect drive, and this is described in detail below in conjunction with specific embodiments.
Further, motor power axle lock unit 33c, motor power axle lock unit 33c positions are additionally provided with motor power axle 3
Between motor power axle first gear 31 and motor power axle second gear 32, motor power axle lock unit 33c can be selected
Property ground motor power axle first gear 31 or motor power axle second gear 32 are engaged with motor power axle 3.For example Fig. 2's
In example, the clutch collar of motor power axle lock unit 33c is moved to the left engageable motor power axle second gear 32, moves right
Then engageable motor power axle first gear 31.
Similarly, the first motor generator 51 is arranged to link with motor power axle 3.For example, the first dynamoelectric and power generation
Machine 51, can be by the power output for producing to motor power axle 3 when as electric motor operation.And for example, in the first motor generator
51 as generator operation when, the power of Jing motor powers axle 3 can be exported to the first motor generator 51, so as to drive first
Motor generator 51 is generated electricity.
Here, need explanation a bit, in description of this utility model about " motor generator ", if no special theory
Bright, the motor generator can be understood as the motor with electromotor Yu motor function.
As described above, motor power axle second gear 32 is linked with one of gear driven gear, especially, in motor
When line shaft second gear 32 is linked with the gear driven gear, the first motor generator 51 can be utilized from electromotor
At least part of power of 4 outputs is generated electricity in vehicle traveling and parking.
In other words, transport condition is in vehicle and motor power axle second gear 32 and the gear driven gear link
When, at least part of power of electromotor 4 can pass through the gear driven gear, motor power axle second gear 32, motor power
Export after axle 3 to the first motor generator 51, so as to drive the first motor generator 51 to be generated electricity, realize that 4 side of electromotor is driven
Dynamic side charging operating mode.
Especially, in vehicle in parking (vehicle stops but electromotor 4 is still in working condition, such as 4 idling of electromotor)
When state and motor power axle second gear 32 and the gear driven gear link, at least part of power of electromotor 4 can lead to
Export to the first motor generator 51 after crossing the gear driven gear, motor power axle second gear 32, motor power axle 3, from
And drive the first motor generator 51 to be generated electricity, parking charge function (i.e. " STOP " charging) is realized, it is possible thereby to carry significantly
The fuel economy of high recharge efficiency and electromotor 4.
For motor power axle first gear 31, as which is engaged with main reducing gear driven gear 74, therefore first
The power that motor generator 51 be able to will be produced by motor power axle lock unit 33c engagement motor power axles first gear 31 is straight
Connect from motor power axle first gear 31 and export, can so shorten driving-chain, reduce intermediate transmission part, improve transmission effect
Rate.
Need explanation a bit, in description of the present utility model, motor power axle 3 can be the first motor generator 51 from
The motor shaft of body.It is, of course, understood that the motor shaft of motor power axle 3 and the first motor generator 51 can also be two
Individual single axle.
Thus, the power-driven system 100 according to this utility model embodiment, can travel and reality during parking in vehicle
Existing charge function, enriches charge mode, at least solve to a certain extent existing power drive system charging modes it is single,
The low problem of charge efficiency.In short, can realize that driving is charged according to the power-driven system 100 of this utility model embodiment
With parking two class charge modes of charging.And, advanced with seven according to the power-driven system 100 of this utility model embodiment
Gear so that power is more smoothed out in transmission, transmission efficiency, and seven different transmission speed ratios preferably can meet
Vehicle is under different road conditions to power and the demand of moment of torsion.
The specific configuration of power-driven system 100 is retouched in conjunction with specific embodiments in detail referring to Fig. 1-Fig. 5
State.
The kind of drive first to motor power axle 3 with gear driven gear is described in detail in conjunction with specific embodiments.
In some embodiments of the present utility model, as shown in Fig. 2 power-driven system 100 also includes jackshaft 71, in
Jackshaft first gear 711 and jackshaft second gear 712, jackshaft first gear 711 and institute are fixedly installed on countershaft 71
State one of gear driven gear engagement (for example, two gear driven gear 2b), jackshaft second gear 712 and motor power axle
Second gear 32 is engaged.In short, in some embodiments, motor power axle second gear 32 is by the second tooth of jackshaft
Wheel 712 and jackshaft first gear 711 and one of gear driven gear linkage.
And in further embodiments, as shown in figure 3, the 3rd gear 713 of jackshaft on jackshaft 71, is only fixedly installed,
Motor power axle second gear 32 is by the 3rd gear 713 of jackshaft and one of gear driven gear (for example, two gear
Driven gear 2b) transmission.
In other embodiment, as shown in fig. 4-5, motor power axle second gear 32 and one of gear
Driven gear (for example, two gear driven gear 2b) direct engaged transmission.
Secondly the kind of drive of motor power axle 3 and the first motor generator 51 is carried out specifically in conjunction with specific embodiments
It is bright.
In certain embodiments, as shown in figs 2-4, motor power axle the 3rd is further fixedly arranged on motor power axle 3
Gear 33, the first motor generator 51 are arranged to and 33 direct engaged transmission of the 3rd gear of motor power axle or indirect drive.
Further, as shown in Fig. 2 the first motor gear 511 is provided with the motor shaft of the first motor generator 51, first
Motor gear 511 is driven with the 3rd gear 33 of motor power axle by idler gear 512.And for example, in the example of Fig. 3-Fig. 4,
It is provided with the first motor gear 511 on the motor shaft of the first motor generator 51, the first motor gear 511 is directly and motor power
The 3rd gear 33 of axle is engaged.For another example, in the example of hgure 5, the first motor generator 51 can also coaxial phase with motor power axle 3
Even.
Input shaft, output shaft and each shift gear are described in detail with reference to the embodiment of Fig. 1-Fig. 5.
In some embodiments of the present utility model, as Figure 1-Figure 5, input shaft can be two, i.e., input shaft includes
First input shaft 11 and the second input shaft 12, the second input shaft 12 can be hollow axles, and the first input shaft 11 can be solid shafting,
The a part of of first input shaft 11 can be embedded in the second hollow input shaft 12, and another part of the first input shaft 11 can be from
Axially outward in second input shaft 12, the first input shaft 11 and the second input shaft 12 can be coaxially arranged.
Output shaft can be two, i.e. the first output shaft 21 and the second output shaft 22, the first output shaft 21 and the second output
Axle 22 is arranged in parallel with input shaft, and the first output shaft 21 and the second output shaft 22 can be solid shafting.
Seven forward ranges can be had according to the power-driven system 100 of this utility model embodiment, specifically, wherein
Odd number gear gear driving gear, another input shaft such as the second input shaft can be arranged on one input shaft such as the first input shaft 11
Even number gear gear driving gear can be arranged on 12, so as to the first input shaft 11 is responsible for the secondary power transmission of odd number shift gear,
Second input shaft 12 is responsible for the secondary power transmission of even number shift gear.In addition, as one kind preferred embodiment, in multiple gears
Position driving gear in, at least one gear driving gear respectively with two gear driven gear engaged transmissions, i.e., at least one
Individual gear driving gear is shared by two gear driven gears, it is possible thereby to reduce the quantity of gear driving gear, is reduced dynamic
The axial dimension of power-driven system, is easy to arrangement.
More specifically, as Figure 1-Figure 5, a gear driving gear 1a, three gear masters can be disposed with the first input shaft 11
Moving gear 3a, five gear driving gear 5a and seven gear driving gear 7a, can be disposed with two gear driving gear on the second input shaft 12
The gear driving gear 46a of 2a and four or six, each gear driving gear is with corresponding input shaft synchronous axial system.
A gear driven gear 1b, two gear driven gear 2b, three gear driven gear 3b and six are set with first output shaft 21
Gear driven gear 6b, is set with four gear driven gear 4b, five gear driven gear 5b and seven gear driven gears on the second output shaft 22
7b。
Wherein, a gear driven gear 1b is engaged with a gear driving gear 1a so as to constitute first gear pair, two gear driven tooths
Wheel 2b is engaged with two gear driving gear 2a so as to constitute second gear pair, and three gear driven gear 3b are engaged with three gear driving gear 3a
So as to constitute three gear gear pairs, four gear driven gear 4b keep off driving gear 46a with four or six and engage so as to constitute four gear gear pairs, and five
Gear driven gear 5b is engaged with five gear driving gear 5a so as to constitute five gear gear pairs, and six gear driven gear 6b and four or six gears are actively
Gear 46a engagements are engaged so as to constitute seven gears with seven gear driving gear 7a so as to constitute six gear gear pairs, seven gear driven gear 7b
Gear pair.
Wherein four gear gear pairs and six gear gear pairs share four or six gear driving gear 46a, such that it is able to reduce by a gear
Driving gear so that the structure of power-driven system 100 is compacter, and axial dimension is less.
In the embodiment, be provided with the first output shaft 21 one or three gear lock unit 13c and two or six gear lock unit 26c, one or three
Gear lock unit 13c is synchronous for a gear driven gear 1b or three gear driven gear 3b are bonded to the gear of the first output shaft 21,26
Device 26c is bonded to the first output shaft 21 for two gear driven gear 2b or six are kept off driven gear 6b.Set on second output shaft 22
Be equipped with five or seven gear lock unit 57c and four gear lock unit 4c, five or seven gear lock unit 57c for by five gear driven gear 5b or seven gear from
Moving gear 7b is bonded to the second output shaft 22, and four gear lock unit 4c are bonded to the second output shaft for keeping off driven gear 4b by four
22。
Further, in some embodiments, as Figure 1-Figure 4,8 empty set of reverse output gear is in the second output shaft 22
It is upper and adjacent with four gear driven gear 4b, so as to share four gear lock unit 4c with four gear driven gear 4b.
Alternatively, as Figure 1-Figure 4, reverse output gear 8 positioned at four gear driven gear 4b away from the one of electromotor 4
Side.
In certain embodiments, as shown in figure 1, reverse gear shaft first gear 81 is engaged with two gear driving gear 2a, and two
Gear driving gear 2a, four or six gear driving gear 46a, one gear driving gear 1a, five gear driving gear 5a, three gear driving gear 3a,
Seven gear driving gear 7a are incremented by with the distance of electromotor 4.Thus, more rationally, 100 structure of power-driven system is tight for gear arrangement
Gather, radial direction and axial dimension are relatively smaller.Also, it is especially, shorter using this arrangement reverse gear shaft 89, so that power
Drive system 100 is more compact.
In some embodiments of the present utility model, first input shaft 11 and the second input shaft of electromotor 4 and variator
Can be that action edge transmission or detached is entered by double clutch 2d between 12.
Shown in reference picture 1- Fig. 5, double clutch 2d has input 23d, the first outfan 21d and the second outfan 22d,
Electromotor 4 is connected with the input 23d of double clutch 2d, and specifically, electromotor 4 can pass through flywheel, amortisseur or torsion
The various ways such as disk are connected with the input 23d of double clutch 2d.
The first outfan 21d of double clutch 2d is connected with the first input shaft 11, so as to the first outfan 21d and first
11 synchronous rotary of input shaft.The second outfan 22d of double clutch 2d is connected with the second input shaft 12, so as to second outfan
12 synchronous rotary of 22d and the second input shaft.
Wherein, the input 23d of double clutch 2d can be the housing of double clutch 2d, its first outfan 21d and
Two outfan 22d can be two clutch plates.Usually, housing and two clutch plates all can disconnect, i.e. input 23d
Disconnect with the first outfan 21d and the second outfan 22d, when needing to engage one of clutch plate, housing can be controlled
Engaged with corresponding clutch plate so as to synchronous rotary, i.e. input 23d and the first outfan 21d and the second outfan 22d it
One engagement, so as to the power that input 23d is transmitted can be defeated by the first outfan 21d and the second outfan 22d
Go out.
Especially, housing can also be engaged with two clutch plates simultaneously, i.e. input 23d can also be exported with first simultaneously
End 21d and the second outfan 22d engagements, so as to the power that input 23d is transmitted can be while by the first outfan 21d and second
Outfan 22d is exported.
It should be appreciated that the concrete engagement state of double clutch 2d is controlled the impact of strategy, for the technology of this area
For personnel, can according to actually required transmission mode adaptive settings control strategy, such that it is able to input 23d with
Switch in the various modes that two outfans are all off and at least one input 23d and two outfans are engaged.
With reference to Fig. 1-Fig. 5 to three power output shafts (i.e. the first output shaft 21, the second output shaft 22 and motor power
Annexation of the axle 3) and between differential for vehicles 75 is described in detail.
The differential mechanism 75 of vehicle can be arranged between a pair of front-wheels 76 or between a pair of rear wheels, of the present utility model one
In a little examples, differential mechanism 75 is between a pair of front-wheels 76.The function of differential mechanism 75 is travelled or not when turn inside diameter
When travelling in flat road surface, make driving wheels and rolled with different angular velocity, it is pure with ground catch cropping to ensure two side drive wheel
Rolling movement.Main reducing gear driven gear 74 is provided with differential mechanism 75, such as main reducing gear driven gear 74 can be arranged in
On the housing of differential mechanism 75.Main reducing gear driven gear 74 can be bevel gear, but not limited to this.
Further, the first output shaft output gear 211, the first output shaft output gear are fixedly installed on the first output shaft 21
With 21 synchronous axial system of the first output shaft, the first output shaft output gear 211 engages biography with main reducing gear driven gear 74 to wheel 211
It is dynamic, so as to the power of the first output shafts of Jing 21 can be transferred to main reducing gear driven gear from the first output shaft output gear 211
74 and differential mechanism 75.
Similarly, the second output shaft output gear 221, the second output shaft output gear are fixedly installed on the second output shaft 22
With 22 synchronous axial system of the second output shaft, the second output shaft output gear 221 engages biography with main reducing gear driven gear 74 to wheel 221
It is dynamic, so as to the power of the second output shafts of Jing 22 can be transferred to main reducing gear driven gear from the second output shaft output gear 221
74 and differential mechanism 75.
Similarly, motor power axle first gear 31 can be used for the power for exporting Jing motor powers axle 3, therefore motor power
Axle first gear 31 equally with 74 engaged transmission of main reducing gear driven gear.
According to some typical conditions of the power-driven system 100 of this utility model embodiment include power generation in parking, it is double from
Clutch 2d simultaneously engage with the case of the charge mode and reverse mode when driving.
Power generation in parking this typical condition is described first, when vehicle is in parked state, electromotor 4 is arranged to produce
Power output to motor power axle second gear 32 linkage described one of gear driven gear, and pass through motor
Power axle lock unit 33c causes power output to the first motor generator to drive the synchronization of motor power axle second gear 32
First motor generator is generated electricity.
Specifically, the embodiment with reference to shown in Fig. 2, electromotor 4 can be by power by double clutches after vehicle parking
Device 2d and export to the second input shaft 12, motor power axle lock unit 33c engagement motor power axles second gear 32, so as to Jing the
The power of two input shafts 12 can be by second gear pair, jackshaft first gear 711, jackshaft 71, jackshaft second gear
712nd, motor power axle second gear 32, motor power axle lock unit 33c, motor power axle 3, the 3rd gear of motor power axle
33rd, export to the first motor generator 51 after idler gear 512, the first motor gear 511, so as to drive the first motor generator
51 are generated electricity as electromotor.
Hereby it is achieved that power generation in parking function, enriches vehicle under charge mode, and power generation in parking operating mode and is in static shape
State, the power of electromotor 4 can be completely used for charging, and improve charge efficiency, realize quick function of supplying power.
Secondly the charging operating mode when driving in the case of description double clutch 2d is simultaneously engaged with, under the operating mode, electromotor 4
A portion can be moved with conjugation while the first outfan 21d and the second outfan 22d by input 23d
Power exports the power to wheel to travel as vehicle by wherein one output shaft, and another part power is passed through motor
Power axle second gear 32 is exported to the first motor generator 51 to drive the first motor generator 51 to be generated electricity.
Specifically, the embodiment with reference to shown in Fig. 2, under the operating mode, motor power axle lock unit 33c engagement motor powers
Axle second gear 32, a part of power of electromotor 4 may be output to the first input shaft 11, then by first gear pair, three gear teeth
Wheel set, five gear gear pairs or seven gear gear pair outputs, another part power of electromotor 4 can keep off tooth from the second input shaft 12, two
Export after wheel set, motor power axle second gear 32 to the first motor generator 51, so as to drive the first motor generator 51
Electricity.
Due to tradition with double clutch 2d power drive system in, double clutch 2d synchronization only one of which from
Clutch is in running order, and is realized to double clutch 2d's according to the power-driven system 100 of this utility model embodiment
Breakthrough application, i.e., under two clutch whole engagement states of double clutch 2d, (input 23d simultaneously engages with the first output
End 21d and the second outfan 22d) so that a part of power of electromotor 4 by an output shaft (such as the first output shaft 21 or
22) output driving vehicle is travelled second output shaft, and another part power is then exported to the first motor generator 51, and motor is sent out
Electricity, enriches transmission mode, takes into account vehicle traveling and charging requirement.
Reverse mode is described again, especially, machinery is had according to the power-driven system 100 of this utility model embodiment
Reverse mode, three kinds of reverse modes of electronic reverse mode and mixed dynamic reverse mode.
Mechanical reverse mode is the car-backing function that vehicle is realized using the power of electromotor 4, is reversed gear in machinery in vehicle
During pattern, electromotor 4 as power source by the power output for producing to reverse gear shaft 89, and it is defeated synchronously to be reversed gear by reverse gear synchronizer
Go out gear 8 and so that the power that electromotor 4 is produced is exported from the reverse output gear 8.
Specifically, the embodiment with reference to shown in Fig. 2, four gear lock unit 4c engagement reverse output gears 8, so as to electromotor
4 power for producing are by exporting to reverse output gear 8, so by reverse gear synchronizer after the second input shaft 12, reverse gear shaft 89
The conjugation of 6c so that the power that reverses gear finally can be exported from the second output shaft 22.
In short, when vehicle is in mechanical reverse mode, as shown in Fig. 2 only reverse gear synchronizer 4c engagements reverse gear it is defeated
Go out gear 8.
Electronic reverse mode is the car-backing function that vehicle is realized using the first motor generator 51, is in electromotive inverted in vehicle
During gear pattern, the first motor generator 51 is as power source and by motor power axle lock unit 33c to motor power axle first
The synchronization of gear 31 and cause the first motor generator 51 produce power export from motor power axle first gear 31, realize down
Car.
Specifically, with reference to the embodiment of Fig. 2, motor power axle lock unit 33c engagement motor power axles first gear 31, the
First motor gears of power Jing 511, idler gear 512 of the output of one motor generator 51, the 3rd gear 33 of motor power axle, electricity
Export from motor power axle first gear 31 after mechanomotive force axle 3, motor power axle lock unit 33c.
In this case, driving-chain is shorter, intermediate transmission part is less, efficiency high of reversing gear, it is believed that be first electronic
The path of directly reversing gear of electromotor 51.
In short, under the electronic reverse mode, only motor power axle lock unit 33c engagement motor power axle first gears
31。
Mixed dynamic reverse mode be while the car-backing function of vehicle is realized using electromotor 4 and the first motor generator 51, it is mixed
Dynamic reverse mode is the combination of above-mentioned mechanical reverse mode and electronic reverse mode.
When vehicle is in mixed dynamic reverse mode, electromotor 4 as power source by the power output for producing to reverse gear shaft 89,
And cause the power that electromotor 4 is produced defeated from the reverse output gear 8 by reverse gear synchronizer synchronization reverse output gear 8
Go out.
At the same time, the first motor generator 51 as power source and by motor power axle lock unit 33c to motor
The synchronization of power axle first gear 31 and cause the first motor generator 51 produce power it is defeated from motor power axle first gear 31
Go out.
Specifically, as shown in Fig. 2 when power-driven system 100 is in mixed dynamic reverse mode, combining above-mentioned machinery and falling
Power is exported from reverse output gear 8 by gear pattern and electronic reverse mode, electromotor 4 according to above-mentioned mechanical reverse mode,
Power is exported from motor power axle first gear 31 by the first motor generator 51 according to above-mentioned electronic reverse mode, and two parts are moved
Power is exported after coupling at main reducing gear driven gear 74 jointly to wheel, realizes mixed dynamic reversing.
Now, the first motor generator 51 can carry out speed governing so that main reducing gear driven gear 74 can be evenly same
Step is received from electromotor 4 and the power of the first motor generator 51, improves ride comfort, the harmony of transmission.
In short, under the mixed dynamic model formula, as shown in Fig. 2 motor power axle lock unit 33c engagement motor power the first teeth of axle
Wheel 31 and reverse gear synchronizer 4c engages reverse output gear 8.
Thus, the power-driven system 100 can realize three kinds of reverse modes, i.e., mechanical reverse mode, the electronic mould that reverses gear
Formula and mixed dynamic reverse mode, enrich operating mode of reversing gear, and flexibly can be carried out in three kinds of reverse modes according to practical situation
Switching, meets driving demand.
For example, in the case of Vehicular battery carrying capacity abundance, electronic reverse mode can be adopted, so in reversing not
Only will not discharge of noxious gases, and can also reducing energy consumption, move backward for position especially for new hand driver, it may be necessary to grasp
Work repeatedly could pour vehicle into specified location, and electromotor 4 as more harmful gass can be produced in low-reverse, together
When electromotor 4 be typically in non-economy rotary speed area in reversing, oil consumption is of a relatively high, now adopts the electronic reverse mode can be with
Improve this problem well, discharge can not only be reduced, while realize that low-reverse energy consumption relatively low as power using motor,
There is certain improvement to the fuel economy of electromotor 4.
And for example, in the case where Vehicular battery carrying capacity is inadequate or relatively low, can be using mechanical reverse mode.For another example,
Needing quickly to move backward or needing under the operating modes such as high-power reversing, then the dynamic of vehicle can increased using mixed dynamic reverse mode
Power, it is convenient to move backward.
Certainly, the above-mentioned description with regard to three kinds of reverse mode applied environments is only illustrative, it is impossible to be not understood as to this
A kind of restriction of utility model or hint must adopt above-mentioned corresponding reverse mode in vehicle under above-mentioned environment.For this
For the those of ordinary skill in field, it is clear that can as needed or practical situation is come needed for specifically setting under corresponding reversing environment
Reverse mode.
Thus, the reverse mode of power-driven system 100 is further enriched, is more selected to driver, fully carried
High Driving, preferably meets the requirement of reversing gear of different road conditions.
According to the power-driven system 100 of some embodiments of the present utility model, as Figure 2-Figure 5, can also set up
Second motor generator 52 enriches transmission mode to increase the dynamic property of power-driven system 100.
For example, wherein in some embodiments, the second motor generator 52 can be driven with main reducing gear driven gear 74, example
As arranged gear on the motor shaft of the second motor generator 52, the gear directly engages biography with main reducing gear driven gear 74
It is dynamic.And for example, in further embodiments, the second motor generator 52 can also be arranged to be connected with the first input shaft 11 or with
One output shaft 21 is connected.For another example, in still other embodiments, the second motor generator 52 is two and is separately positioned on differential mechanism
75 both sides, such as this two the second motor generator 52 can be become one with differential mechanism 75.Or, aforesaid electromotor
4 and first motor generator 51 be used to drive front-wheel, the second motor generator 52 be wheel motor and be used for trailing wheel, or
The second motor generator of person 52 can drive two trailing wheels by a reducing gear, or the second motor generator 52 is two
And a trailing wheel is driven by a reducing gear respectively.
Basic embodiments of the Fig. 1 for this utility model power-driven system 100.Fig. 2-Fig. 5 is the modified example of Fig. 1, with Fig. 1
Embodiment is compared, and is differred primarily in that and be increased the first motor generator 51.And the respective difference master of four embodiments of Fig. 2-Fig. 5
It is that the first motor generator 51 is different from the mode of two gear driven gear 2b power connectors.
Additionally, in each embodiment of Fig. 2-Fig. 5, the power of the first motor generator 51 is all to access two to keep off driven tooth
Wheel 2b's, naturally it is also possible to access three gear driven gear 3b, a gear driven gear 1b or four gear driven gear 4b (not shown).
Additionally, being further provided including power-driven system as above 100 according to embodiment of the present utility model
Vehicle.It should be appreciated that other according to the vehicle of this utility model embodiment constitute such as driving system, steering system
System, brakes etc. have been prior art and to be well known for ordinary skill in the art, therefore to the detailed of conventional construction
Describe in detail and bright omitted herein.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show
Example ", or the description of " some examples " etc. mean specific features with reference to the embodiment or example description, structure, material or spy
Point is contained at least one embodiment of the present utility model or example.In this manual, the schematic table to above-mentioned term
State.And, the specific features of description, structure, material or feature can be with
Combined in one or more any embodiment or example in an appropriate manner.Additionally, those skilled in the art can be by
Different embodiments or example described in this specification are engaged and are combined.
Although embodiment of the present utility model has been shown and described above, it is to be understood that above-described embodiment is
Exemplary, it is impossible to it is interpreted as to restriction of the present utility model, one of ordinary skill in the art is in scope of the present utility model
It is interior above-described embodiment to be changed, be changed, being replaced and modification.
Claims (10)
1. a kind of power-driven system, it is characterised in that include:
Electromotor;
First input shaft and the second input shaft, the electromotor are arranged to be selectively engageable first input shaft and described
At least one of second input shaft, second input shaft are set on first input shaft, on first input shaft
Gear driving gear be one gear driving gear, three gear driving gears, five gear driving gears and seven gear driving gears, described second
Two gear driving gear and four or six gear driving gears are provided with input shaft;
Multiple output shafts, are provided with gear driven gear on each described output shaft, the gear driven gear is with gear actively
Gear is accordingly engaged, the upper position overhead corresponding with a gear driving gear of in the output shaft cover be provided with reverse gear it is defeated
Go out in gear and the output shaft it is one on be additionally provided with for engaging the reverse gear synchronizer of the reverse output gear;
Reverse gear shaft, is fixedly installed reverse gear shaft first gear and reverse gear shaft second gear, the reverse gear shaft on the reverse gear shaft
One gear is engaged with another gear driving gear, and the reverse gear shaft second gear is engaged with the reverse output gear.
2. power-driven system according to claim 1, it is characterised in that the output shaft includes:First output shaft and
Second output shaft, the first output shaft overhead set be provided with a gear driven gear, two gear driven gears, three gear driven gears and
Six gear driven gears, the second output shaft overhead set are provided with four gear driven gears, five gear driven gears and seven gear driven tooths
Wheel;
One or three gear lock units, the two gears driven gear are provided between the one gear driven gear and the three gears driven gear
With described six gear driven gears between be provided with two or six gear lock units, it is described five gear driven gear and described seven gear driven gears it
Between be provided with five or seven gear lock units, it is described four gear driven gear sides be provided with four gear lock units.
3. power-driven system according to claim 2, it is characterised in that the reverse output gear empty set is described
Four gear lock units are shared on two output shafts and with described four gear driven gears, it is same so as to reverse gear described in described four gear lock units compositions
Step device.
4. power-driven system according to claim 3, it is characterised in that the reverse output gear is positioned at described four gears
The side away from electromotor of driven gear.
5. power-driven system according to claim 3, it is characterised in that the reverse gear shaft first gear is with two gears actively
Gear is engaged, and
The two gear driving gear, four or the six gear driving gear, the gear driving gear, the five gears driving gear, institute
State three gear driving gears and the seven gear driving gear to be incremented by with the distance of the electromotor.
6. power-driven system according to claim 1, it is characterised in that is fixedly installed on first output shaft
One output shaft output gear, is fixedly installed the second output shaft output gear, first output shaft on second output shaft
Output gear, the second output shaft output gear are engaged with the main reducing gear driven gear of vehicle.
7. power-driven system according to claim 1, it is characterised in that also include:Double clutch, the double clutch
With input, the first outfan and the second outfan, the electromotor is connected with the input, first outfan with
First input shaft is connected, and second outfan is connected with second input shaft.
8. power-driven system according to claim 1, it is characterised in that the reverse output gear with adjacent one
Gear driven gear shares gear lock unit, and the shared gear lock unit constitutes the reverse gear synchronizer.
9. power-driven system according to claim 1, it is characterised in that also include:
Motor power axle, the motor power axle overhead set are provided with the second tooth of motor power axle first gear and motor power axle
Wheel, is additionally provided with the motor power axle positioned at the motor power axle first gear and the motor power axle second gear
Between motor power axle lock unit, wherein the motor power axle second gear is arranged to and one of gear driven gear
Linkage;And
First motor generator, first motor generator are arranged to link with the motor power axle.
10. a kind of vehicle, it is characterised in that include the power-driven system according to any one of claim 1-9.
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CN201620666339.XU CN206086338U (en) | 2016-06-29 | 2016-06-29 | Power drive system and vehicle |
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CN201620666339.XU CN206086338U (en) | 2016-06-29 | 2016-06-29 | Power drive system and vehicle |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114483892A (en) * | 2022-03-11 | 2022-05-13 | 特百佳动力科技有限公司 | Multi-shaft transmission system and driving assembly |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114483892A (en) * | 2022-03-11 | 2022-05-13 | 特百佳动力科技有限公司 | Multi-shaft transmission system and driving assembly |
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