CN202431851U - Driving device for dual clutch transmission - Google Patents
Driving device for dual clutch transmission Download PDFInfo
- Publication number
- CN202431851U CN202431851U CN2011205791985U CN201120579198U CN202431851U CN 202431851 U CN202431851 U CN 202431851U CN 2011205791985 U CN2011205791985 U CN 2011205791985U CN 201120579198 U CN201120579198 U CN 201120579198U CN 202431851 U CN202431851 U CN 202431851U
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- Prior art keywords
- gear
- retaining
- output shaft
- gears
- clutch
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- 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.)
- Expired - Lifetime
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H3/00—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion
- F16H3/006—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion power being selectively transmitted by either one of the parallel flow paths
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H3/00—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion
- F16H3/02—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion without gears having orbital motion
- F16H3/08—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion without gears having orbital motion exclusively or essentially with continuously meshing gears, that can be disengaged from their shafts
- F16H3/087—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion without gears having orbital motion exclusively or essentially with continuously meshing gears, that can be disengaged from their shafts characterised by the disposition of the gears
- F16H3/093—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion without gears having orbital motion exclusively or essentially with continuously meshing gears, that can be disengaged from their shafts characterised by the disposition of the gears with two or more countershafts
- F16H2003/0931—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion without gears having orbital motion exclusively or essentially with continuously meshing gears, that can be disengaged from their shafts characterised by the disposition of the gears with two or more countershafts each countershaft having an output gear meshing with a single common gear on the output shaft
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Structure Of Transmissions (AREA)
Abstract
The utility model discloses a driving device for a dual clutch transmission. The driving device is provided with seven forward gears and one backward gear, a four-gear driven gear and a six-gear driven gear share a four-gear driving gear, a five-gear driven gear and a seven-gear driven gear share a five-gear driving gear, and a two-gear driven gear and a reverse-gear driven gear share a reverse-gear driving gear, so that using of three groups of input shaft gears is reduced, the axial length of the driving device is shortened, and the driving device is suitable for arrangement of transversely-arranged front-driving passenger cars and accords with development requirements of the passenger cars. The two-gear driven gear is simultaneously used as an idle gear and forms a reverse-gear middle dual gear together with a reverse-gear idle gear, a reverse-gear shaft is eliminated, correspondingly bearings matched with the reverse-gear shaft, synchronizers, shifting forks and other accessories are reduced, the dimension of a transmission box body is shortened, processing amount is reduced, and cost is lowered. The driving device for the dual clutch transmission is simple in structure, can prolong service life of a clutch, optimizes starting performance and fuel oil economy of automobiles and is strong in practical applicability.
Description
Technical field
The utility model belongs to transmission device, relates to a kind of double-clutch speed changer transmission device.Be specially adapted to adopt in the automobile double clutch speed changer.
Background technique
Typical double-clutch speed changer transmission device refers to through two clutches and is connected with two input shafts of speed changer respectively, transmits engine power.Dual clutch transmission is by two coaxial nested or clutches of being arranged in parallel; Two input shafts of coaxial, inside and outside nested arrangement; Or two input shafts that are arranged in parallel; The output shaft parallel with input shaft, and be arranged in a plurality of synchromesh gears on the output shaft, a plurality of selector fork and a differential mechanism composition.Speed changer is strange, even number retaining input gear is arranged on two input shafts, and switching and combination of different synchronizer or separation through two clutches realize speed ratio shift and moment of torsion output via output shaft.Dual-clutch transmission is mainly used in passenger car, and existing dual-clutch transmission existing problems are that axial length is longer, and gear is less, and complex structure can not adapt to increasingly high compactedness of passenger car and fuel economy requirement; Existing double clutch all adopts independent reverse gear shaft or the idle pulley that reverses gear, and realizes reversing gear of speed changer, has increased the complexity of number of components and parts and layout.For example; China utility model patent CN 101576145A discloses a kind of dual-clutch transmission; Comprise two input shafts, two jack shafts and a reverse gear shaft, two interior input shafts and outer input shaft that input shaft is a coaxial arrangement, two input shafts are provided with each gear driving gear; Two jack shafts are provided with each the gear driven gear that is meshed with driving shaft gear; Reverse gear shaft is provided with the driven gear that reverses gear, and a retaining driving gear is meshed with a retaining driven gear, the driven gear that reverses gear simultaneously, and its three retainings driving gear is meshed with three retaining driven gears, five retaining driven gears simultaneously.This structure has three obvious defects, one of which, and this structure has 2 input shafts, 2 jack shafts, 1 reverse gear shaft, and the reverse gear shaft two ends also must be provided with spring bearing, and radial dimension is big, on car load, arranges comparatively inconvenience; And part is various, and cost is high; They are two years old; After the centre distance of input shaft and 2 jack shafts was confirmed, because shared driving gear, three retaining speed ratios and five kept off speed ratios and will pin down each other; Can not be according to the power of car load, economic performance demand and independent adjustment, thus the smoothness and the fuel economy of the gearshift of car load influenced; Its three, this structure only has six forward gears, ratio coverage is limited, smooth gear shifting property and fuel economy are all poor than the speed changer of 7 forward gears.
Summary of the invention
It is longer that the purpose of the utility model is intended to overcome the axial length that exists in the above-mentioned existing technology, and gear is less, and complex structure, the problem that component are many provide a kind of dual-clutch transmission transmission device; This transmission structures is novel, possesses 7 advance gear and 1 and retreats gear, can effectively improve smooth gear shifting property and to reduce fuel consume functional.
The content of the utility model is: a kind of double-clutch speed changer transmission device comprises: the interior input shaft of coaxial setting and outer input shaft, first output shaft, second output shaft 4; Input shaft is in the same place with outer input shaft nested, concentric in said, can rotate relatively freely; Saidly gear is set on each respectively; First output shaft subtracts gear engagement through first output shaft gear and differential mechanism master, and second output shaft subtracts gear engagement through second output shaft gear and differential mechanism master, optionally power is passed via differential mechanism; Also comprise: first clutch and second clutch, an end of first clutch and interior input shaft is connected, and an end of second clutch and outer input shaft is connected, and first clutch and second clutch nested, concentric are positioned at the same end of input shaft, it is characterized in that:
Be set with a retaining driving gear (11), three retaining driving gears (13), five retaining driving gears (15) in said on the input shaft (1) successively, five retaining driving gears (15) are simultaneously as seven retaining driving gears;
Be set with four retaining driving gears (24) and two retaining driving gears (22) on the said outer input shaft (2) successively, as six retaining driving gears, two retaining driving gears (22) also are used as the driving gear that reverses gear to four retaining driving gears (24) simultaneously simultaneously;
Be disposed with a retaining driven gear (31), seven retaining driven gears (37), six retaining driven gears (36), two retaining driven gear (32) and first output shaft gears (30) on said first output shaft (3); Wherein: a retaining driven gear (31), seven retaining driven gears (37), six retaining driven gears (36), two retaining driven gears (32) all sky are enclosed within on first output shaft (3); Two retaining driven gears (32) are conjuncted duplicate gear with the idle pulley (38) that reverses gear; First synchronizer (SC1) is fixedly installed between the retaining driven gear (31) and seven retaining driven gears (37) of first output shaft (3); Second synchronizer (SC2) is fixedly installed between the six retaining driven gears (36) and two retaining driven gears (32) of first output shaft (3); First output shaft gear (30) is fixedly connected with first output shaft (3);
Be disposed with three retaining driven gears (43), five retaining driven gears (45), four retaining driven gear (44) and driven gear that reverses gear (47) and second output shaft gears (40) on said second output shaft (4); Said three retaining driven gears (43), five retaining driven gears (45), four retaining driven gears (44) and the driven gear that reverses gear (47) all sky are enclosed within on second output shaft (4); The 4th synchronizer (SC4) is fixedly installed between the three retaining driven gears (43) and five retaining driven gears (45) of second output shaft (4); The 3rd synchronizer (SC3) is fixedly installed between the four retaining driven gears (44) and the driven gear that reverses gear (47) of second output shaft (4); Second output shaft gear (40) is fixedly connected with second output shaft (4); Parking ratchet (48) is fixed on an end (near the bearing place) of second output shaft (4);
Said first output gear (30) and second output gear (40) subtract the normal engagement of gear (50) with the differential mechanism master respectively.
A said retaining driving gear (11) is normal engagement with a retaining driven gear (31), and five retaining driving gears (15) are normal engagement with seven retaining driven gears (37); Four retaining driving gears (24) are normal engagement with six retaining driven gears (36); Two retaining driving gears (22) are normal engagement with two retaining driven gears (32).
Said three retaining driving gears (13) are normal engagement with three retaining driven gears (43); Five retaining driving gears (15) are normal engagement with five retaining driven gears (45); Four retaining driving gears (24) are normal engagement with four retaining driven gears (44); Be normal engagement with the idle pulley that reverses gear (38) of two retaining driven gear (32) duplexs with the driven gear (47) that reverses gear.
Compared with prior art, the utlity model has following characteristics and beneficial effect:
(1) adopts the utility model; The double-clutch speed changer transmission device possesses 7 advance gear and one and retreats gear; Use many 1 gears that advance of double-clutch speed changer transmission device of 6 more forward gears at present; The transmission speed ratio scope be can enlarge, thereby automobile starting performance and fuel economy optimized;
(2) adopt the utility model, four retaining driven gears and six retaining driven gears are shared four retaining driving gears, five retaining driven gears and seven retaining driven gears are shared five retaining driving gears; Simultaneously; Two the retaining driven gears with reverse gear driven gear shared the driving gear that reverses gear, reduced the use of 3 groups of input shaft gears, make this transmission device axial length become shorter; Highly beneficial to the particularly horizontal passenger car layout of horizontal automobile, meet the passenger car demand for development;
(3) the utility model is used as two retaining driven gears simultaneously idle pulley and is used; And with the idle pulley that reverses gear constitute together reverse gear in the middle of duplicate gear, cancelled reverse gear shaft, also with regard to the corresponding annexes such as the bearing that matches with reverse gear shaft, synchronizer, shift fork that reduced; Simultaneously; Dwindle the size of mission case, reduced amount of finish, reduced cost;
(4) duplicate gear was used as the idle pulley that reverses gear in the middle of the utility model adopted, and compared the transmission device that only reverses gear with an intermediate gear realization, more helped the flexibility adjustment of two retainings and the speed ratio that reverses gear, and had optimized Speed Ratio Distribution;
(5) the double-clutch speed changer transmission device that provides of the utility model with a retaining with reverse gear arranged apartly on different clutch, uses in 2 clutches respectively when starting, balance the double clutch frequency of utilization, the working life of having improved clutch;
(6) adopt the utility model, the Parking ratchet is arranged on second output shaft and to be compared the Parking ratchet is arranged in the structure on the independent reverse gear shaft, more compact structure near the high order end position of bearings;
(7) the utility model is simple in structure, and is easy for operation, practical.
Description of drawings
Fig. 1 is the utility model structural configuration schematic representation;
Fig. 2 is that the utility model axle system arranges and the power transmission route schematic representation that reverses gear.
Among the figure: 1-interior input shaft; 2-outer input shaft; 3-the first output shaft; 4-the second output shaft; 5-differential mechanism; 11-one retaining driving gear; 13-three retaining driving gears; 15-five retaining driving gears; 22-two retaining driving gears; 24-four retaining driving gears; 30-the first output shaft gear; 31-one retaining driven gear; 32-two retaining driven gears; 36-six retaining driven gears; 37-seven retaining driven gears; 38-idle pulley reverses gear; 40-the second output shaft gear; 43-three retaining driven gears; 44-four retaining driven gears; 45-five retaining driven gears; 47-driven gear reverses gear; 48-reverse idler gear; 50-differential mechanism master subtracts gear; C1-first clutch; C2-second clutch; SC1-first synchronizer; SC2-second synchronizer; SC3-the 3rd synchronizer; SC4-the 4th synchronizer.
Embodiment
The utility model is described further through embodiment below in conjunction with accompanying drawing.
Embodiment 1: referring to each accompanying drawing.
A kind of double-clutch speed changer transmission device comprises: the interior input shaft of coaxial setting 1 and outer input shaft 2, first output shaft 3, second output shaft 4; Input shaft 1 is in the same place with outer input shaft 2 nested, concentric in said, can rotate relatively freely; Saidly gear is set on each respectively; First output shaft 3 subtracts gear 50 engagements through first output shaft gear 30 with the differential mechanism master, and second output shaft 4 subtracts gear 50 engagements through second output shaft gear 40 with the differential mechanism master, optionally power is passed via differential mechanism; Also comprise: first clutch C1 and second clutch C2, an end of first clutch C1 and interior input shaft 1 is connected, and an end of second clutch C2 and outer input shaft 2 is connected, and first clutch C1 and second clutch C2 nested, concentric are positioned at the same end of input shaft;
Be set with a retaining driving gear 11, three in said on the input shaft 1 successively and keep off driving gears 13, five retaining driving gears, 15, five retaining driving gears 15 simultaneously as seven retaining driving gears;
Be set with four retaining driving gears 24 on the said outer input shaft 2 successively and also be used as six retaining driving gears simultaneously with two retaining driving gears 22, four retaining driving gears, two keep off driving gears also is used as the driving gear that reverses gear simultaneously;
Be disposed with a retaining driven gear 31, seven retaining driven gears 37, six retaining driven gears 36, the two retaining driven gear 32 and first output shaft gears 30 on said first output shaft 3; Two retaining driven gears 32 are duplicate gear with the idle pulley 38 that reverses gear, and are fixedly connected run-in synchronism; Wherein a retaining driven gear 31, seven keeps off driven gears 37, six retaining driven gears 36, two keep off driven gears 32 equal skies and are enclosed within on first output shaft 3, and can rotate around first output shaft 3; The first synchronizer SC1 is fixedly installed between the retaining driven gear 31 and seven retaining driven gears 37 of first output shaft 3, optionally the first retaining moment of torsion or the 7th retaining moment of torsion is passed to first output shaft 3 by input shaft; The second synchronizer SC2 is fixedly installed between the six retaining driven gears 36 and two retaining driven gears 32 of first output shaft 3, optionally the 4th retaining moment of torsion or the moment of torsion that reverses gear is passed to first output shaft 3 by input shaft; First output shaft gear 30 is fixedly connected with first output shaft 3, rotates synchronously with it, and the torque drive on the output shaft 3 is gone down;
An one retaining driving gear 11 and a retaining driven gear 31 are normal engagement, and five retaining driving gears 15 and seven retaining driven gears 37 are normal engagement; Four retaining driving gears 24 and six retaining driven gears 36 are normal engagement; Two retaining driving gears 22 and two retaining driven gears 32 are normal engagement.
Be disposed with three retaining driven gears 43, five on said second output shaft 4 and keep off driven gears 45, four retaining driven gear 44 and the reverse gear driven gear 47 and second output shaft gears 40; Said three retaining driven gears 43, five keep off driven gears 45, four retaining driven gears 44 and the driven gear 47 equal skies that reverse gear and are enclosed within on second output shaft 4, and can rotate around second output shaft 4; The 4th synchronizer SC4 is fixedly installed between the three retaining driven gears 43 and five retaining driven gears 45 of second output shaft 4, and the 4th synchronizer SC4 optionally passes to second output shaft 4 with the 3rd retaining moment of torsion or the 5th retaining moment of torsion; The 3rd synchronizer SC3 is fixedly installed on four retaining driven gears 44 of second output shaft 4 and reverses gear between the driven gear 47, optionally the 4th retaining moment of torsion or the moment of torsion that reverses gear is passed to second output shaft 4; Second output shaft gear 40 is fixedly connected with second output shaft 4, rotates synchronously with it, and the torque drive on the output shaft 4 is gone down; End at second output shaft 4 is set with Parking ratchet 48, and Parking ratchet 48 and outside corresponding click-fit can keep the Parking state of automobile when stopping;
Three retaining driving gears 13 and three retaining driven gears 43 are normal engagement; Five retaining driving gears 15 and five retaining driven gears 45 are normal engagement; Four retaining driving gears 24 and four retaining driven gears 44 are normal engagement; Be normal engagement with the idle pulley 38 that reverses gear of two retaining driven gears, 32 duplexs with the driven gear 47 that reverses gear.
First output shaft gear 30 and second output shaft gear 40 subtract gear 50 with the differential mechanism master respectively and often mesh.
Power transmission line is explained as follows:
One retaining power transmission route: the first synchronizer SC1 and a retaining driven gear 31 engage; First clutch C1 is closed; Input shaft 1 in Engine torque passes to through first clutch C1; Keep off driving gear 11, a retaining driven gear 31 and the first synchronizer SC1 via normal engagement one and transfer torque to first output shaft 3, subtract gear 50 through first output shaft gear 30 with the differential mechanism master again moment of torsion is passed to differential mechanism 5, and finally by differential mechanism 5 outputting powers.
Two retaining power transmission lines: the second synchronizer SC2 and two retaining driven gears 32 engage; Second clutch C2 is closed; Engine torque passes to outer input shaft 2 through second clutch C2; Keep off driving gears 22, two retaining driven gears 32 and the second synchronizer SC2 via normal engagement two and transfer torque to first output shaft 3, subtract gear 50 through first output shaft gear 30 with the differential mechanism master again moment of torsion is passed to differential mechanism 5, and finally by differential mechanism 5 outputting powers.
Three retaining power transmission lines: the 4th synchronizer SC4 and three retaining driven gears 43 engage; First clutch C1 is closed; Input shaft 1 in Engine torque passes to through first clutch C1; Keep off driving gears 13, three retaining driven gears 43 and the 4th synchronizer SC4 via normal engagement three and transfer torque to second output shaft 4, subtract gear 50 through second output shaft gear 40 with the differential mechanism master again moment of torsion is passed to differential mechanism 5, and finally by differential mechanism 5 outputting powers.
Four retaining power transmission lines: the 3rd synchronizer SC3 and four retaining driven gears 44 engage; Second clutch C2 is closed; Engine torque passes to outer input shaft 2 through second clutch C2; Keep off driving gears 24, four retaining driven gears 44 and the 3rd synchronizer SC3 via normal engagement four and transfer torque to second output shaft 4, subtract gear 50 through second output shaft gear 40 with the differential mechanism master again moment of torsion is passed to differential mechanism 5, and finally by differential mechanism 5 outputting powers.
Five retaining power transmission lines: the 4th synchronizer SC4 and five retaining driven gears 45 engage; First clutch C1 is closed; Input shaft 1 in Engine torque passes to through first clutch C1; Keep off driving gears 15, five retaining driven gears 45 and the 4th synchronizer SC4 via normal engagement five and transfer torque to second output shaft 4, subtract gear 50 through second output shaft gear 40 with the differential mechanism master again moment of torsion is passed to differential mechanism 5, and finally by differential mechanism 5 outputting powers.
Six retaining power transmission lines: the second synchronizer SC2 and six retaining driven gears 36 engage; Second clutch C2 is closed; Engine torque passes to outer input shaft 2 through second clutch C2; Keep off driving gears 24, six retaining driven gears 36 and the second synchronizer SC2 via normal engagement four and transfer torque to first output shaft 3, subtract gear 50 through first output shaft gear 30 with the differential mechanism master again moment of torsion is passed to differential mechanism 5, and finally by differential mechanism 5 outputting powers.
Seven retaining power transmission lines: the first synchronizer SC1 and seven retaining driven gears 37 engage; First clutch C1 is closed; Input shaft 1 in Engine torque passes to through first clutch C1; Keep off driving gears 15, seven retaining driven gears 37 and the first synchronizer SC1 via normal engagement five and transfer torque to first output shaft 3, subtract gear 50 through first output shaft gear 30 with the differential mechanism master again moment of torsion is passed to differential mechanism 5, and finally by differential mechanism 5 outputting powers.
Transfer route reverses gear: the 3rd synchronizer SC3 combines with the driven gear 47 that reverses gear; Second clutch C2 is closed; Engine torque passes to outer input shaft 2 through second clutch C2; Often engagement two retaining driving gears 22, two retaining driven gear 32, the idle pulleys 38 that reverse gear, reverse gear driven gear 47 and the 3rd synchronizer SC3 transfer torque to second output shaft 4, and subtract gear 50 through second output shaft gear 40 with the differential mechanism master again moment of torsion is passed to differential mechanism 5, and finally by differential mechanism 5 outputting powers.
Shift process illustrates:
One keeps off the process that shifts into second: during a retaining, the first synchronizer SC1 and a retaining driven gear 31 combine, and first clutch C1 is closed, and second clutch C2 opens; The dual-clutch transmission control system send one the retaining shift into second the instruction after; Gearshift actuator combines the second synchronizer SC2 and two retaining driven gears 32 in advance; This moment, second clutch C2 still was in open mode, i.e. second clutch C2, outer input shaft 2 transferring power not; Along with shift process continues, first clutch C1 opens gradually, and meanwhile, second clutch C2 is closed gradually, in this process, has clutch to combine all the time, the moment of torsion transmission can not occur and interrupt; First clutch C1 opens fully, after the complete closure of second clutch C2, shift process finishes; At this moment; First clutch C1 is in open mode; Be transferring power not of first clutch C1, interior input shaft 1, engine power subtracts gear 50, differential mechanism 5 outputs via second clutch C2, outer input shaft 2, two retaining driving gears 22, two retaining driven gears 32, the second synchronizer SC2, first output shaft 3, first output shaft gear 30, differential mechanism master.
All the other each gear shift processes and said process are similar, no longer repeat.
The not concrete same existing technology of narrating of technology contents in the utility model content and the foregoing description.
The utility model is not limited to the foregoing description, and the utility model content is said all can implement and have said good result.
Claims (1)
1. a double-clutch speed changer transmission device comprises: the interior input shaft of coaxial setting and outer input shaft, first output shaft, second output shaft (4); Input shaft is in the same place with outer input shaft nested, concentric in said, can rotate relatively freely; Saidly gear is set on each respectively; First output shaft subtracts gear engagement through first output shaft gear and differential mechanism master, and second output shaft subtracts gear engagement through second output shaft gear and differential mechanism master, optionally power is passed via differential mechanism; Also comprise: first clutch and second clutch, an end of first clutch and interior input shaft is connected, and an end of second clutch and outer input shaft is connected, and first clutch and second clutch nested, concentric are positioned at the same end of input shaft, it is characterized in that:
Be set with a retaining driving gear (11), three retaining driving gears (13), five retaining driving gears (15) in said on the input shaft (1) successively, five retaining driving gears (15) are simultaneously as seven retaining driving gears;
Be set with four retaining driving gears (24) and two retaining driving gears (22) on the said outer input shaft (2) successively, as six retaining driving gears, two retaining driving gears (22) also are used as the driving gear that reverses gear to four retaining driving gears (24) simultaneously simultaneously;
Be disposed with a retaining driven gear (31), seven retaining driven gears (37), six retaining driven gears (36), two retaining driven gear (32) and first output shaft gears (30) on said first output shaft (3); Wherein: a retaining driven gear (31), seven retaining driven gears (37), six retaining driven gears (36), two retaining driven gears (32) all sky are enclosed within on first output shaft (3); Two retaining driven gears (32) are conjuncted duplicate gear with the idle pulley (38) that reverses gear; First synchronizer (SC1) is fixedly installed between the retaining driven gear (31) and seven retaining driven gears (37) of first output shaft (3); Second synchronizer (SC2) is fixedly installed between the six retaining driven gears (36) and two retaining driven gears (32) of first output shaft (3); First output shaft gear (30) is fixedly connected with first output shaft (3);
Be disposed with three retaining driven gears (43), five retaining driven gears (45), four retaining driven gear (44) and driven gear that reverses gear (47) and second output shaft gears (40) on said second output shaft (4); Said three retaining driven gears (43), five retaining driven gears (45), four retaining driven gears (44) and the driven gear that reverses gear (47) all sky are enclosed within on second output shaft (4); The 4th synchronizer (SC4) is fixedly installed between the three retaining driven gears (43) and five retaining driven gears (45) of second output shaft (4); The 3rd synchronizer (SC3) is fixedly installed between the four retaining driven gears (44) and the driven gear that reverses gear (47) of second output shaft (4); Second output shaft gear (40) is fixedly connected with second output shaft (4); Parking ratchet (48) is fixed on an end of second output shaft (4);
Said first output gear (30) and second output gear (40) subtract the normal engagement of gear (50) with the differential mechanism master respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011205791985U CN202431851U (en) | 2011-12-31 | 2011-12-31 | Driving device for dual clutch transmission |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011205791985U CN202431851U (en) | 2011-12-31 | 2011-12-31 | Driving device for dual clutch transmission |
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CN202431851U true CN202431851U (en) | 2012-09-12 |
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CN2011205791985U Expired - Lifetime CN202431851U (en) | 2011-12-31 | 2011-12-31 | Driving device for dual clutch transmission |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102996746A (en) * | 2012-10-31 | 2013-03-27 | 奇瑞汽车股份有限公司 | Dual clutch transmission |
CN103758969A (en) * | 2011-12-31 | 2014-04-30 | 绵阳新晨动力机械有限公司 | Driving device for dual-clutch transmission |
CN113685501A (en) * | 2020-05-18 | 2021-11-23 | 广州汽车集团股份有限公司 | Ten keep off two separation and reunion derailleurs and vehicle |
-
2011
- 2011-12-31 CN CN2011205791985U patent/CN202431851U/en not_active Expired - Lifetime
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103758969A (en) * | 2011-12-31 | 2014-04-30 | 绵阳新晨动力机械有限公司 | Driving device for dual-clutch transmission |
CN102996746A (en) * | 2012-10-31 | 2013-03-27 | 奇瑞汽车股份有限公司 | Dual clutch transmission |
CN102996746B (en) * | 2012-10-31 | 2016-04-27 | 奇瑞汽车股份有限公司 | A kind of dual-clutch transmission |
RU2592187C1 (en) * | 2012-10-31 | 2016-07-20 | Чери Аутомобайл Ко., Лтд. | Gearbox with dual clutch |
CN113685501A (en) * | 2020-05-18 | 2021-11-23 | 广州汽车集团股份有限公司 | Ten keep off two separation and reunion derailleurs and vehicle |
CN113685501B (en) * | 2020-05-18 | 2024-03-22 | 广州汽车集团股份有限公司 | Ten-gear double-clutch transmission and vehicle |
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Assignee: Mianyang Xinhua internal combustion engine Limited by Share Ltd Assignor: Miangang Xinchen Power machinery Co., Ltd. Contract record no.: 2014510000132 Denomination of utility model: Transmission device for dual clutch speed changer Granted publication date: 20120912 License type: Exclusive License Record date: 20140822 |
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