CN209430690U - Gearbox for automobile - Google Patents
Gearbox for automobile Download PDFInfo
- Publication number
- CN209430690U CN209430690U CN201822098321.6U CN201822098321U CN209430690U CN 209430690 U CN209430690 U CN 209430690U CN 201822098321 U CN201822098321 U CN 201822098321U CN 209430690 U CN209430690 U CN 209430690U
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- Prior art keywords
- gear
- variable
- wheel
- sheathed
- speed shaft
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Classifications
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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
- F16H3/089—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 all of the meshing gears being supported by a pair of parallel shafts, one being the input shaft and the other the output shaft, there being no countershaft involved
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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
- F16H3/10—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 with one or more one-way clutches as an essential feature
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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
- F16H2200/00—Transmissions for multiple ratios
- F16H2200/003—Transmissions for multiple ratios characterised by the number of forward speeds
- F16H2200/0034—Transmissions for multiple ratios characterised by the number of forward speeds the gear ratios comprising two forward speeds
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Structure Of Transmissions (AREA)
Abstract
The utility model belongs to gearbox technical field, the more particularly, to gearbox of automobile.Gearbox for automobile includes connecting shaft, first gear, second gear, variable-speed shaft, the first one-way clutch, third gear, torque sensing ring, the 4th gear and elastic element;The first end of connecting shaft is connected with motor output shaft;First gear and second gear are sheathed in connecting shaft;The middle part of variable-speed shaft is equipped with the first thread segment;First one-way clutch is sheathed on variable-speed shaft;Third geared sleeve is set on the first one-way clutch, and is engaged with first gear;Torque sensing ring set is set on variable-speed shaft, and is threadedly coupled with the first thread segment;4th geared sleeve is set on torque sensing ring, and is engaged with second gear;The first end of elastic element is connected with cabinet, and second end is connected with torque sensing ring.The gearbox can incude road resistance to realize automatic gear-shifting, therefore can be avoided driver because unstable using motor operation caused by inappropriate gear.
Description
Technical field
The utility model belongs to gearbox technical field, the more particularly, to gearbox of automobile.
Background technique
Electric car refers to that, with the vehicle of motor driven wheels travel, development prospect is had an optimistic view of extensively.Gearbox is vapour
The important component of vehicle, for changing the gear of automobile.Currently, the gearbox of middle-size and small-size electric car generally uses two kinds of speed change sides
Formula: one is efp speed changes, i.e. driver changes size of current by jamming on gas pedal, to realize speed
Change, however the speed change gear is not easy to adjust torque, it is difficult to adapt to mountain area, hills or heavy duty situation;Another kind is hand
Mechanical speed change is moved, i.e. driver changes gear by stirring shift handle.
But above-mentioned gear shift mode is closely related with the operating experience of driver, beginner insufficient for experience,
Or often motor is caused to transport because of misoperation under vehicle condition and the unfamiliar situation of condition of road surface in driver
Row is unstable.For example it in vehicle launch, upward slope or larger load, if driver uses inappropriate gear, is easy to force
Motor works in inefficient area, so as to cause vehicle climbing capacity is poor, endurance distance is short.
Utility model content
In view of this, the utility model embodiment provides the gearbox for automobile, it is intended to which solution is driven in the prior art
The person of sailing is because of the problem unstable using motor operation caused by inappropriate gear.
In order to achieve the above objectives, the technical scheme adopted by the utility model is
Gearbox for automobile, comprising:
Cabinet;
Connecting shaft is located in the cabinet, and first end is used to be connected with the output shaft of motor, second end and the cabinet
Rotation connection;
First gear is sheathed in the connecting shaft;
Second gear is sheathed in the connecting shaft;
Variable-speed shaft is located in the cabinet, and is arranged in parallel with the connecting shaft;The both ends of the variable-speed shaft with it is described
Body pivot connection, and middle part is equipped with the first thread segment;The variable-speed shaft is equipped with the output gear for connected with differential;
First one-way clutch is sheathed on the variable-speed shaft;
Third gear is sheathed on first one-way clutch, and engage with the first gear;
Torque sensing ring is sheathed on the variable-speed shaft, and inner peripheral surface is threadedly coupled with first thread segment;
4th gear is sheathed on the torque sensing ring, and is slidably connected with the torque sensing ring;4th tooth
Wheel is engaged with the second gear;The transmission ratio of 4th gear and the second gear be less than the third gear with it is described
The transmission ratio of first gear;With
Elastic element is arranged in the cabinet, and first end is connected with the cabinet, second end and the torque sensing
Ring is connected, for driving the torque sensing circumferential direction mobile close to the direction of the 4th gear.
Further, first one-way clutch includes:
Wheel disc is sheathed on the variable-speed shaft;With
Multiple wedge blocks, the circumferential direction along the wheel disc are evenly distributed;Each wedge block with the wheel disc is angled sets
It sets;
The third geared sleeve is set on the wheel disc, and is contacted when rotating forward with each wedge block contact.
Further, the wheel disc is sheathed on the torque sensing ring, and the wheel disc is with the torque sensing ring
Key connection.
Further, for the gearbox of automobile further include:
Axle sleeve is sheathed on the variable-speed shaft;The first end of the axle sleeve is connect with the body pivot, and second end with
4th gear is fixedly connected;The torque sensing ring is located in the cavity of the axle sleeve, and is slidably connected with the axle sleeve.
Further, the surface that the torque sensing ring is in contact with the axle sleeve is the conical surface.
Further, the elastic element is disc spring, and the quantity of the elastic element is multiple;Each disc spring is equal
It is sheathed on the variable-speed shaft, and each disc spring is sequentially connected with;The first end of multiple disc springs and the cabinet contact
Contact, and second end is contacted with the torque sensing ring contact.
Further, each disc spring is located in the cavity of the axle sleeve, and the outer peripheral surface of each disc spring and institute
State axle sleeve clearance fit.
Further, for the gearbox of automobile further include:
Second one-way clutch is sheathed in the connecting shaft;The second gear is sheathed on second one-way clutch
On device;
Sleeve is sheathed on the variable-speed shaft, and is rotatablely connected with the variable-speed shaft;The outer peripheral surface of the sleeve is equipped with the
Two thread segments, and the thread rotary orientation of second thread segment is opposite with the thread rotary orientation of first thread segment;The sleeve
First end is connected with the third gear, and second end and the output gear clearance fit;The second end of the sleeve is equipped with
Retaining ring;With
Reverse gear wheel, is sheathed on the sleeve, and between the third gear and the retaining ring;The wheel that reverses gear
Inner peripheral surface is threadedly coupled with second thread segment, the axial movement for variable-speed shaft described in the drive lower edge in the sleeve;
The wheel that reverses gear is contacted in third gear reversion with the output gear contact.
Further, for the gearbox of automobile further include:
Bracket is mutually clamped with the wheel that reverses gear, and the bracket is with elastically-deformable metal frame, in the set
The wheel that reverses gear described in driving when cylinder rotation is axially moveable;With
Connecting rod, first end are fixedly connected with the bracket, and second end is fixedly connected with the cabinet.
Further, second one-way clutch includes:
Star-wheel is sheathed in the connecting shaft, and outer peripheral surface is equipped with multiple gear teeth;Each gear teeth are wedge shaped, and
Circumferential direction along the star-wheel is evenly distributed;Each gear teeth and the angled setting of the star-wheel;With
Wheel hub is sheathed on the star-wheel, and is contacted when the star-wheel is rotated forward with each gear teeth contact;The wheel
Hub is fixedly connected with the second gear, and for driving the second gear to rotate.
By adopting the above-described technical solution, the technological progress that the utility model obtains is:
Cabinet plays the role of sealing and support.Connecting shaft is located in the box body, and first end is for the output shaft with motor
It is connected, second end is connect with body pivot;First gear and second gear are sheathed in connecting shaft.In the operating condition, electric
The output shaft of machine drives connecting shaft rotation, and connecting shaft drives first gear and second gear rotation.
Variable-speed shaft is located in the box body, and is arranged in parallel with connecting shaft;The both ends of variable-speed shaft are connect with body pivot, and are become
Fast axis is equipped with the output gear for connected with differential.First one-way clutch is sheathed on variable-speed shaft;Third gear is arranged
In on the first one-way clutch, and engaged with first gear.First gear drives the rotation of third gear, and third gear drives first
One-way clutch rotation, the first one-way clutch drive variable-speed shaft rotation, and variable-speed shaft drives output gear rotation, and output gear is logical
Cross differential mechanism driving vehicle wheel rotation.
First one-way clutch plays unidirectional non-return effect, band when third gear can be made only to rotate in one direction
Variable-speed shaft rotation is unable to drive when moving variable-speed shaft rotation, and inverting;In addition, the first one-way clutch also acts as the work of mono-directional overrun
With that is, when the revolving speed of variable-speed shaft is greater than the revolving speed of third gear, in surmounting state, the two between third gear and variable-speed shaft
Without interaction relation.
Torque sensing ring set is set on variable-speed shaft;4th geared sleeve is set on torque sensing ring, and is engaged with second gear.
Second gear drives the rotation of the 4th gear, and the 4th gear drives the rotation of torque sensing ring, and torque sensing annulus moves variable-speed shaft rotation,
Variable-speed shaft drives output gear rotation, and output gear drives vehicle wheel rotation by differential mechanism.
The middle part of variable-speed shaft is equipped with the first thread segment;The inner peripheral surface of torque sensing ring is threadedly coupled with the first thread segment;The
Four gears are slidably connected with torque sensing ring;Elastic element is located in the box body, and first end is connected with cabinet, second end and torsion
Inductance loop is connected, for driving torque sensing circumferential direction mobile close to the direction of the 4th gear.When variable-speed shaft rotation, the first screw thread
Section is equivalent to the cooperation of feed screw nut with torque sensing ring, and therefore, variable-speed shaft driving torque sensing ring is axially moveable.Elastic member
The elastic force of part also can drive torque sensing ring to be axially moveable, therefore, torsion and elasticity member of the variable-speed shaft to torque sensing ring
The elastic force of part forms opposition.
When torsion of the variable-speed shaft to torque sensing ring is greater than the elastic force of elastic element, torque sensing ring and the 4th gear are de-
It opens, that is, there is no interaction relation between the 4th gear and variable-speed shaft, at this point, the rotation of connecting shaft passes through first gear and third tooth
Wheel is transferred to variable-speed shaft.When variable-speed shaft is less than the elastic force of elastic element to the torsion of torque sensing ring, torque sensing ring and the
Four gears combine, and the rotation of connecting shaft is transferred to variable-speed shaft by second gear and the 4th gear, at this point, turning due to variable-speed shaft
Speed is greater than the revolving speed of third gear, and variable-speed shaft and third gear, which are in, surmounts state, does not join between third gear and variable-speed shaft
Dynamic relationship.
4th gear and the transmission ratio of second gear are less than the transmission ratio of third gear and first gear, that is, connecting shaft
When rotation is transferred to variable-speed shaft by second gear and the 4th gear, variable-speed shaft is high speed, the output of small torque;When turning for connecting shaft
Dynamic when being transferred to variable-speed shaft by first gear and third gear, variable-speed shaft is low speed, large torque output.
The beneficial effects of adopting the technical scheme are that for the gearbox of automobile equipped with low in this programme
Speed, large torque and two kinds of high speed, small torque gears become when vehicle, which is in starting, upward slope or load, waits vehicles to hinder big situation again
Fast case is low speed, large torque output;When vehicle is in descending, load gently waits vehicles to hinder small situation, gearbox is high speed, small torsion
Square output, moreover, each gear is in meshing state always in vehicle operation, road resistance changes variable-speed shaft to torsion
Therefore the torsion of power inductance loop, can be avoided driver Yin Cai to make gearbox perception road resistance to realize automatic gear-shifting
The problem for causing motor operation unstable with inappropriate gear.In addition, steady and smooth when the gear box shift, avoids the occurrence of tooth
The phenomenon that wheel beats tooth, extends the service life of gear.
Detailed description of the invention
It, below will be to required in embodiment description in order to illustrate more clearly of the technical scheme in the embodiment of the utility model
Attached drawing to be used is briefly described, it should be apparent that, the accompanying drawings in the following description is only some realities of the utility model
Example is applied, it for those of ordinary skill in the art, without any creative labor, can also be attached according to these
Figure obtains other attached drawings.
Fig. 1 is the structural schematic diagram of the gearbox provided by the embodiment of the utility model for automobile;
Fig. 2 is the internal structure chart of the gearbox provided by the embodiment of the utility model for automobile;
Fig. 3 is the assembling schematic diagram of the first one-way clutch and third gear provided by the embodiment of the utility model;
Fig. 4 is the assembling schematic diagram of torque sensing ring and the 4th gear provided by the embodiment of the utility model;
Fig. 5 is the appearance diagram of the gearbox provided by the embodiment of the utility model for automobile;
Fig. 6 is the connection schematic diagram of the first one-way clutch and third gear provided by the embodiment of the utility model;
Fig. 7 is the structural schematic diagram of the first one-way clutch provided by the embodiment of the utility model;
Fig. 8 is the connection schematic diagram of torque sensing ring and the 4th gear provided by the embodiment of the utility model;
Fig. 9 is the connection schematic diagram of the second one-way clutch and second gear provided by the embodiment of the utility model;
Figure 10 is the connection schematic diagram of sleeve provided by the embodiment of the utility model with the wheel that reverses gear.
Description of symbols:
10- cabinet, 20- connecting shaft, 21- first gear, 22- second gear, the second one-way clutch of 23-, 231- star-wheel,
The 2311- gear teeth, 232- wheel hub, 30- variable-speed shaft, the first thread segment of 301-, the first one-way clutch of 31-, 311- wheel disc, 312- wedge
Shape block, 32- third gear, 33- torque sensing ring, the 4th gear of 34-, 341- axle sleeve, 3411- stop collar, 35- elastic element,
36- sleeve, 361- retaining ring, 37- reverse gear wheel, 371- bracket, 372- connecting rod, 38- output gear, 41- motor output shaft, and 42- is poor
Fast device.
Specific embodiment
In being described below, for illustration and not for limitation, the tool of such as particular system structure, technology etc is proposed
Body details, to understand thoroughly the utility model embodiment.However, it will be clear to one skilled in the art that there is no these
The utility model also may be implemented in the other embodiments of detail.In other situations, omit to well-known system,
The detailed description of apparatus, circuit and method, in case unnecessary details interferes the description of the utility model.
In order to illustrate technical solution described in the utility model, the following is a description of specific embodiments.
The utility model embodiment provides a kind of gearbox for automobile, as shown in connection with fig. 1, the speed change for automobile
Case includes cabinet 10, connecting shaft 20, first gear 21, second gear 22, variable-speed shaft 30, the first one-way clutch 31, third tooth
Wheel 32, torque sensing ring 33, the 4th gear 34 and elastic element 35.Connecting shaft 20 is located in cabinet 10, and first end be used for
Motor output shaft 41 is connected, and second end and cabinet 10 are rotatablely connected.First gear 21 is sheathed in connecting shaft 20.Second gear 22
It is sheathed in connecting shaft 20.
Referring to figs. 1 and 2, variable-speed shaft 30 is located in cabinet 10, and is arranged in parallel with connecting shaft 20.Variable-speed shaft 30
Both ends are rotatablely connected with cabinet 10, and middle part is equipped with the first thread segment 301.Variable-speed shaft 30, which is equipped with, is used for connected with differential 42
Output gear 38.In conjunction with shown in Fig. 1, Fig. 2 and 3, the first one-way clutch 31 is sheathed on variable-speed shaft 30.32 sets of third gear
It is engaged on the first one-way clutch 31, and with first gear 21.
In conjunction with shown in Fig. 1, Fig. 2 and Fig. 4, torque sensing ring 33 is sheathed on variable-speed shaft 30, and inner peripheral surface and the first screw thread
Section 301 is threadedly coupled.4th gear 34 is sheathed on torque sensing ring 33, and is slidably connected with torque sensing ring 33.4th tooth
Wheel 34 is engaged with second gear 22.4th gear 34 and the transmission ratio of second gear 22 are less than third gear 32 and first gear 21
Transmission ratio.In conjunction with shown in Fig. 1 and Fig. 8, elastic element 35 is arranged in cabinet 10, and first end is connected with cabinet 10, and second
End is connected with torque sensing ring 33, for driving torque sensing ring 33 to close to the movement of the direction of the 4th gear 34.
Cabinet 10 plays the role of sealing and support.Electric car is using motor as driving force, and in the operating condition, motor is defeated
Shaft 41 drives connecting shaft 20 to rotate, and connecting shaft 20 drives first gear 21 and second gear 22 to rotate.
The both ends of variable-speed shaft 30 are rotatablely connected with cabinet 10, and variable-speed shaft 30 is equipped with for the defeated of connected with differential 42
Gear 38 out.First one-way clutch 31 is sheathed on variable-speed shaft 30;Third gear 32 is sheathed on the first one-way clutch 31,
And it is engaged with first gear 21.First gear 21 drives third gear 32 to rotate, and third gear 32 drives the first one-way clutch
31 rotations, the first one-way clutch 31 drive variable-speed shaft 30 to rotate, and variable-speed shaft 30 drives output gear 38 to rotate, output gear 38
Vehicle wheel rotation is driven by differential mechanism 42.
First one-way clutch 31 plays unidirectional non-return effect, and third gear 32 can be made only to rotate in one direction
When drive variable-speed shaft 30 to rotate, and while inverting, is unable to drive the rotation of variable-speed shaft 30;In addition, the first one-way clutch 31 also acts as list
To the effect surmounted, i.e., when the revolving speed of variable-speed shaft 30 is greater than the revolving speed of third gear 32, third gear 32 and variable-speed shaft 30 it
Between in surmounting state, the two is without interaction relation.
Torque sensing ring 33 is sheathed on variable-speed shaft 30;4th gear 34 is sheathed on torque sensing ring 33, and with second
Gear 22 engages.Second gear 22 drives the rotation of the 4th gear 34, and the 4th gear 34 drives torque sensing ring 33 to rotate, torsion sense
Answer ring 33 that variable-speed shaft 30 is driven to rotate, variable-speed shaft 30 drives output gear 38 to rotate, and output gear 38 is driven by differential mechanism 42
Vehicle wheel rotation.
The middle part of variable-speed shaft 30 is equipped with the first thread segment 301;301 spiral shell of the inner peripheral surface of torque sensing ring 33 and the first thread segment
Line connection;4th gear 34 is slidably connected with torque sensing ring 33;The first end of elastic element 35 is connected with cabinet 10, second end
It is connected with torque sensing ring 33, for driving torque sensing ring 33 to close to the movement of the direction of the 4th gear 34.When variable-speed shaft 30
When rotation, the first thread segment 301 is equivalent to the cooperation of feed screw nut with torque sensing ring 33, and therefore, variable-speed shaft 30 can drive
Torque sensing ring 33 is axially moveable.The elastic force of elastic element 35 can also drive torque sensing ring 33 to move axially, and therefore, become
Fast axis 30 forms opposition to the torsion of torque sensing ring 33 and the elastic force of elastic element 35.
When torsion of the variable-speed shaft 30 to torque sensing ring 33 is greater than the elastic force of elastic element 35, torque sensing ring 33 is separate
4th gear 34 is simultaneously disengaged with the 4th gear 34, that is, does not have interaction relation between the 4th gear 34 and variable-speed shaft 30, at this point, even
The rotation of spindle 20 is transferred to variable-speed shaft 30 by first gear 21 and third gear 32.When variable-speed shaft 30 is to torque sensing ring 33
Torsion be less than elastic element 35 elastic force when, torque sensing ring 33 is combined close to the 4th gear 34 and with the 4th gear 34, company
The rotation of spindle 20 is transferred to variable-speed shaft 30 by second gear 22 and the 4th gear 34, at this point, due to the revolving speed of variable-speed shaft 30
Greater than the revolving speed of third gear 32, variable-speed shaft 30 and third gear 32, which are in, surmounts state, third gear 32 and variable-speed shaft 30 it
Between without interaction relation.
The first thread segment 301, torque sensing ring 33 and the elastic element 35 of variable-speed shaft 30 are the critical components of the present embodiment,
Torsion of the first thread segment of drag effects 301 of road to torque sensing ring 33, that is, when road resistance is big, the first thread segment
The torsion of 301 pairs of torque sensing rings 33 is big;When road resistance is small, the first thread segment 301 is small to the torsion of torque sensing ring 33.
Interaction by variable-speed shaft 30 to the torsion of torque sensing ring 33 and the elastic force of elastic element 35, the gearbox can perceive
Road resistance, to realize shift automatically.
4th gear 34 is less than the transmission ratio of third gear 32 and first gear 21 with the transmission ratio of second gear 22, that is,
When the rotation of connecting shaft 20 is transferred to variable-speed shaft 30 by second gear 22 and the 4th gear 34, variable-speed shaft 30 is high speed, small torsion
Square output;When the rotation of connecting shaft 20 is transferred to variable-speed shaft 30 by first gear 21 and third gear 32, variable-speed shaft 30 is
Low speed, large torque output.
The gearbox is equipped with two kinds of low speed, large torque and high speed, small torque gears, when vehicle is in starting, upward slope or bears
When load-carrying waits vehicles to hinder big situation, gearbox is low speed, large torque output;When vehicle is in descending, gently to wait vehicles to hinder small for load
When situation, gearbox is high speed, the output of small torque.
When electric car advances, in the moment of starting, road resistance is not yet transferred to variable-speed shaft 30, at this point, torque sensing
Ring 33 is combined, the power transmission process in gearbox are as follows: motor is defeated under the elastic force effect of elastic element 35 with the 4th gear 34
The 4th gear 34- torque sensing ring 33- variable-speed shaft 30- output gear 38- differential mechanism of shaft 41- connecting shaft 20- second gear 22-
42- wheel.In the moment of starting, the instantaneous high-speed rotation of variable-speed shaft 30, at this point, the revolving speed of variable-speed shaft 30 is greater than third gear 32
Revolving speed, therefore, the first one-way clutch 31, which is in, surmounts state, does not have interaction relation between variable-speed shaft 30 and third gear 32.
Therefore, in the embodiment, electric car is in top gear in the moment of starting.
When electric car advances, in starting state, road resistance is big, so that 301 pairs of the first thread segment of variable-speed shaft 30 torsions
The torsion of power inductance loop 33 increases accordingly, since torsion of first thread segment 301 to torque sensing ring 33 is greater than elastic element 35
Elastic force, therefore, torque sensing ring 33 far from the 4th gear 34 and with the 4th gear 34 disengage, at this point, in the work of road resistance
Under, the revolving speed of variable-speed shaft 30 is less than the revolving speed of third gear 32, and third gear 32 passes through the first one-way clutch 31 and speed change
Axis 30 links, that is, the power transmission process in gearbox are as follows: motor output shaft 41- connecting shaft 20- first gear 21- third tooth
Take turns the first one-way clutch of 32- 31- variable-speed shaft 30- output gear 38- differential mechanism 42- wheel.Therefore, electronic in the embodiment
Automobile is in starting-up process, the gear in low speed, large torque output.
For electric car when going up a slope or load waits vehicles to hinder big situation again, working principle is consistent with the starting principle of state,
It is in the gear of low speed, large torque output.
When electric car advances, after entering smooth-ride state by starting state, with the quickening of speed, road resistance subtracts
Small, so that the first thread segment 301 of variable-speed shaft 30 accordingly reduces the torsion of torque sensing ring 33, the elastic force of elastic element 35 is big
In the first thread segment 301 to the torsion of torque sensing ring 33, therefore, torque sensing ring 33 is close to the 4th gear 34 and with the 4th
Gear 34 combines, the power transmission process in gearbox are as follows: the 4th gear of motor output shaft 41- connecting shaft 20- second gear 22-
34- torque sensing ring 33- variable-speed shaft 30- output gear 38- differential mechanism 42- wheel.During smooth-ride, variable-speed shaft 30 is high
Speed rotation, at this point, the revolving speed of variable-speed shaft 30 is greater than the revolving speed of third gear 32, therefore, the first one-way clutch 31, which is in, to be surmounted
State does not have interaction relation between variable-speed shaft 30 and third gear 32.Therefore, in the embodiment, electric car is in smooth-ride
When, the gear in high speed, the output of small torque.
In vehicle operation, each gear is in meshing state always, and road resistance changes variable-speed shaft 30 to torsion
Therefore the torsion of inductance loop 33, can be avoided driver Yin Cai to make gearbox perception road resistance to realize automatic gear-shifting
The problem for causing motor operation unstable with inappropriate gear improves vehicle to the adaptability of different road conditions, moreover, motor
It runs smoothly and also can be improved the efficiency of motor, increase the cruising ability of electric car.In addition, gear when the gear box shift
In meshing state, there is no the clutch processes of gear, therefore are not in the phenomenon that gear beats tooth, to keep shift steadily suitable
Freely, extend the service life of gear.
In the present embodiment, as shown in connection with fig. 5, cabinet 10 is in irregular shape.In the present embodiment, the number of teeth of second gear 22
Greater than the number of teeth of first gear 21, and the reference diameter of second gear 22 is greater than the reference diameter of first gear 21;4th
The number of teeth of gear 34 is less than the number of teeth of third gear 32, and the reference diameter of the 4th gear 34 is less than the indexing of third gear 32
Circular diameter.
In the present embodiment, the first thread segment 301 can be helical spline.Specifically, the helix angle of helical spline is greater than
Or it is equal to 45 °.The helix angle of first thread segment 301 is bigger, more sensitive to the torsion variation of torque sensing ring 33, that is, first
Thread segment 301 has that when changing by a small margin, torque sensing ring 33 will generate axial movement to the torsion of torque sensing ring 33, thus
Realize quick shift.
In the present embodiment, the first one-way clutch 31 can select the one-way clutch of NSK brand, CKA series, can also be with
Select the one-way clutch of SKF brand, B20 series.In the present embodiment, elastic element 35 can use compressed spring or rubber
Pad, can also select disc spring.
As one embodiment, in conjunction with shown in Fig. 6 and Fig. 7, the first one-way clutch 31 includes wheel disc 311 and multiple wedge shapes
Block 312.Wheel disc 311 is sheathed on variable-speed shaft 30.Multiple wedge blocks 312 are evenly distributed along the circumferential direction of wheel disc 311.Each wedge block
312 with the angled setting of wheel disc 311.Third gear 32 is sheathed on wheel disc 311, and is pushed up when rotating forward with each wedge block 312
Abut touching.
Since the first one-way clutch 321 plays an important role to shift, and often model is not or not commercially available one-way clutch
Matching and maintenance cost height, therefore, using wheel disc 311 and wedge block 312 in the present embodiment.Wheel disc 311 and variable-speed shaft 30 link.
When third gear 32 rotates forward and revolving speed is greater than variable-speed shaft 30, each wedge block 312 is engaged by clamping with third gear 32, therefore,
Third gear 32 drives variable-speed shaft 30 to rotate.When third gear 32 rotates forward and revolving speed is less than variable-speed shaft 30, each wedge block 312
It is in the state relatively rotated with third gear 32, that is, surmounts state, the pass at this point, third gear 32 and variable-speed shaft 30 do not link
System.When third gear 32 inverts, each wedge block 312 is in the state relatively rotated, third gear 32 with third gear 32
Rotation can not be transferred to variable-speed shaft 30, i.e. third gear 32 and variable-speed shaft 30 does not have interaction relation.
In the present embodiment, as shown in connection with fig. 6, wheel disc 311 is sheathed on torque sensing ring 33, and wheel disc 311 and torsion sense
Answer ring 33 for key connection.Wheel disc 311 and variable-speed shaft 30 link, and to keep the two transmission more stable, generally use key connection, however
The length of variable-speed shaft 30 is big and intensity is high, and the manufacturing procedure of variable-speed shaft 30 is increased using which, also increases variable-speed shaft 30
Difficulty of processing.And in the present embodiment, torque sensing ring 33 and variable-speed shaft 30 are by the way of being tightly connected, and outer peripheral surface is convenient for adding
Therefore work keyway in the present embodiment, wheel disc 311 is sheathed on torque sensing ring 33.Wheel disc 311, torque sensing ring 33 and change
Fast 30 three of axis linkage, had both been able to satisfy the demand of power transmitting, and can also reduce difficulty of processing.
As one embodiment, in conjunction with shown in Fig. 4 and Fig. 8, the gearbox for automobile further includes axle sleeve 341.Axle sleeve 341
It is sheathed on variable-speed shaft 30.The first end and cabinet 10 of axle sleeve 341 are rotatablely connected, and second end and the fixed company of the 4th gear 34
It connects.Torque sensing ring 33 is located in the cavity of axle sleeve 341, and is slidably connected with axle sleeve 341.
Torque sensing ring 33 is slidably connected with the 4th gear 34, to be arranged in the present embodiment convenient for assembling the 4th gear 34
Axle sleeve 341.Axle sleeve 341 and the 4th gear 34 link.When torque sensing ring 33 is combined with axle sleeve 341, the 4th gear 34 is driven
Axle sleeve 341 rotates, and axle sleeve 341 drives torque sensing ring 33 to rotate, and torque sensing ring 33 drives variable-speed shaft 30 to rotate.When torsion sense
When ring 33 and axle sleeve 341 being answered to disengage, the rotation of the 4th gear 34 can not be transferred to variable-speed shaft 30.
In the present embodiment, in conjunction with shown in Fig. 1 and Fig. 8, the surface that torque sensing ring 33 is in contact with axle sleeve 341 is the conical surface.
The outer peripheral surface of torque sensing ring 33 is first conical surface, and the inner peripheral surface of axle sleeve 341 is second conical surface, and first conical surface and second is bored
Face is adapted.Using the conical surface, when axial movement by a small margin occurs for torque sensing ring 33, it can disengage or tie with axle sleeve 341
It closes, improves gearbox to the induction susceptibility of road resistance, keep shift process quicker, sensitive.Specifically, on axle sleeve 341
Equipped with stop collar 3411.Stop collar 3411 plays position-limiting action to torque sensing ring 33, avoids 33 excessive compression of torque sensing ring
Elastic element 35 causes elastic element 35 that irreversible deformation occurs.
In the present embodiment, in conjunction with shown in Fig. 1 and Fig. 8, elastic element 35 is disc spring, and the quantity of elastic element 35 is more
It is a.Each disc spring is sheathed on variable-speed shaft 30, and each disc spring is sequentially connected with.The first end and 10 contact of cabinet of multiple disc springs
Contact, and second end is contacted with 33 contact of torque sensing ring.Since compressed spring or rubber pad are easy to happen radial deformation, also hold
It is easily rotated around axis, therefore, disc spring is used in the present embodiment.The buffering vibration absorption ability of disc spring is strong, and can be held with small deformation
By big load, the lesser occasion of axial space suitable for the present embodiment, and also combination is more between each disc spring, convenient for dimension
Repair replacement.
In the present embodiment, as shown in connection with fig. 8, each disc spring is located in the cavity of axle sleeve 341, and the outer peripheral surface of each disc spring
With 341 clearance fit of axle sleeve.Each disc spring is arranged in the cavity of axle sleeve 341, assembly space can be saved.Disc spring and axle sleeve
341 clearance fits axially move when convenient for disc spring, deformation occurs relative to axle sleeve 341.
As one embodiment, in conjunction with shown in Fig. 1, Fig. 2 and Figure 10, the gearbox for automobile further include second unidirectionally from
Clutch 23, sleeve 36 and the wheel 37 that reverses gear.Second one-way clutch 23 is sheathed in connecting shaft 20.Second gear 22 is sheathed on second
On one-way clutch 23.Sleeve 36 is sheathed on variable-speed shaft 30, and is rotatablely connected with variable-speed shaft 30.The outer peripheral surface of sleeve 36 is equipped with
Second thread segment, and the thread rotary orientation of the second thread segment is opposite with the thread rotary orientation of the first thread segment 301.The first end of sleeve 36
It is connected with third gear 32, and second end and 38 clearance fit of output gear.The second end of sleeve 36 is equipped with retaining ring 361.It reverses gear
Wheel 37 is sheathed on sleeve 36, and between third gear 32 and retaining ring 361.Reverse gear wheel 37 inner peripheral surface and state the second screw thread
Section be threadedly coupled, under the drive of sleeve 36 along the axial movement of variable-speed shaft 30.The wheel 37 that reverses gear is inverted in third gear 32
When contacted with 38 contact of output gear.
For electric car, motor can be rotated in the forward direction, and also can be reversed rotation.When automobile, which is in, to reverse gear, motor is defeated
Shaft 41 inverts, and to adapt to demand of reversing gear, the second one-way clutch 23, sleeve 36 and the wheel 37 that reverses gear is arranged in the present embodiment.?
Under the action of two one-way clutch 23, the rotation of connecting shaft 20 can not be transferred to second gear 22, that is, connecting shaft 20 can not pass through
Second gear 22 and the 4th gear 34 transfer the motion to variable-speed shaft 30.Under the action of the first one-way clutch 31, third tooth
The rotation of wheel 32 can not be transferred to variable-speed shaft 30, that is, connecting shaft 20 can not will be moved by first gear 21 and third gear 32
It is transferred to variable-speed shaft 30.
When automobile, which is in, to reverse gear, motor output shaft 41 drives connecting shaft 20 to invert, and connecting shaft 20 passes through first gear 21
Third gear 32 is driven to invert, third gear 32 is inverted with moving sleeve 36, since the outer peripheral surface of sleeve 36 is equipped with the second thread segment,
And second thread segment thread rotary orientation and the first thread segment 301 thread rotary orientation on the contrary, therefore, when sleeve 36 inverts, driving
The wheel 37 that reverses gear is mobile to the direction far from third gear 32, until the wheel 37 that reverses gear is contacted with 38 contact of output gear.Automobile is in
Power transmission process when gear, in gearbox are as follows: motor output shaft 41- connecting shaft 20- first gear 21- third gear 32- set
Cylinder 36-, which reverses gear, takes turns 37- output gear 38- differential mechanism 42- wheel.Retaining ring 361 plays position-limiting action to the wheel 37 that reverses gear, and avoids reversing gear
Wheel 37 is disengaged with sleeve 36.Second one-way clutch 23 can select the one-way clutch of NSK brand, CKA series, can also select
With the one-way clutch of SKF brand, B20 series.
In the present embodiment, as shown in connection with fig. 10, the gearbox for automobile further includes bracket 371 and connecting rod 372.Bracket
371 are clamped with 37 phases of wheel of reversing gear, and bracket 371 is with elastically-deformable metal frame, for driving when sleeve 36 rotates
Gear wheel 37 is axially moveable.The first end of connecting rod 372 is fixedly connected with bracket 371, and second end is fixedly connected with cabinet 10.
Bracket 371 plays clamping action to the wheel 37 that reverses gear.When automobile, which is in, to reverse gear, 36 turns of 32 drive sleeve of third gear
It is dynamic, at this point, sleeve 36 and the wheel 37 that reverses gear are equivalent to feed screw nut.In bracket 371 under the active force for the wheel 37 that reverses gear, reverse gear wheel 37
It can not rotate, but be axially moveable simultaneously close to output gear 38 with sleeve 36, until being contacted with 38 contact of output gear.
Connecting rod 372 plays support and position-limiting action to bracket 371.When the wheel 37 that reverses gear is axially moveable, bracket 371 occurs
Elastic deformation.Bracket 371 and connecting rod 372 match, and can be avoided the wheel 38 that reverses gear and rotate synchronously with sleeve 36, but make the wheel that reverses gear
38 are axially moveable, and are combined with output gear 38.Specifically, the material of bracket 371 is spring steel.
In the present embodiment, as shown in connection with fig. 9, the second one-way clutch 23 includes star-wheel 231 and wheel hub 232.231 sets of star-wheel
In connecting shaft 20, and outer peripheral surface is equipped with multiple gear teeth 2311.Each gear teeth 2311 are wedge shaped, and along the week of star-wheel 231
To evenly distributed.Each gear teeth 2311 and the angled setting of star-wheel 231.Wheel hub 232 is sheathed on star-wheel 231, and in star-wheel 231
It is contacted when rotating forward with each 2311 contact of the gear teeth.Wheel hub 232 is fixedly connected with second gear 22, and for driving second gear 22
Rotation.
Since the second one-way clutch 23 plays an important role to reversing gear, and often model is not for commercially available one-way clutch
Match and maintenance cost is high, therefore, the form combined in the present embodiment using star-wheel 231 and wheel hub 232.Star-wheel 231 with connect
Axis 20 links.When connecting shaft 20 rotates forward, each gear teeth 2311 are in clamping engagement state, therefore, connecting shaft 20 with wheel hub 232
Second gear 22 is driven to rotate.When connecting shaft 20 inverts, each gear teeth 2311 are in the state relatively rotated with wheel hub 232,
Rotation can not be transferred to wheel hub 232 by star-wheel 231, that is, rotation can not be transferred to second gear 22 by connecting shaft 20.
In this programme in the process of running for the gearbox of automobile, each gear is in meshing state, road roadlock always
Power changes variable-speed shaft to the torsion of torque sensing ring, to make gearbox perception road resistance to realize automatic gear-shifting, therefore, energy
Enough avoid driver because of the problem unstable using motor operation caused by inappropriate gear.In addition, being put down when the gear box shift
It is steady smooth, the phenomenon that gear beats tooth is avoided the occurrence of, the service life of gear is extended.
Embodiment described above is only to illustrate the technical solution of the utility model, rather than its limitations;Although referring to before
Embodiment is stated the utility model is described in detail, those skilled in the art should understand that: it still can be with
It modifies the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features;And
These are modified or replaceed, the spirit for various embodiments of the utility model technical solution that it does not separate the essence of the corresponding technical solution
And range, it should be included within the scope of protection of this utility model.
Claims (10)
1. being used for the gearbox of automobile characterized by comprising
Cabinet;
Connecting shaft is located in the cabinet, and first end is used to be connected with the output shaft of motor, second end and the body pivot
Connection;
First gear is sheathed in the connecting shaft;
Second gear is sheathed in the connecting shaft;
Variable-speed shaft is located in the cabinet, and is arranged in parallel with the connecting shaft;The both ends of the variable-speed shaft with the cabinet
Rotation connection, and middle part is equipped with the first thread segment;The variable-speed shaft is equipped with the output gear for connected with differential;
First one-way clutch is sheathed on the variable-speed shaft;
Third gear is sheathed on first one-way clutch, and engage with the first gear;
Torque sensing ring is sheathed on the variable-speed shaft, and inner peripheral surface is threadedly coupled with first thread segment;
4th gear is sheathed on the torque sensing ring, and is slidably connected with the torque sensing ring;4th gear with
The second gear engagement;4th gear and the transmission ratio of the second gear are less than the third gear and described first
The transmission ratio of gear;With
Elastic element is arranged in the cabinet, and first end is connected with the cabinet, second end and the torque sensing ring phase
Even, for driving the torque sensing circumferential direction mobile close to the direction of the 4th gear.
2. the gearbox according to claim 1 for automobile, which is characterized in that first one-way clutch includes:
Wheel disc is sheathed on the variable-speed shaft;With
Multiple wedge blocks, the circumferential direction along the wheel disc are evenly distributed;Each wedge block and the angled setting of the wheel disc;
The third geared sleeve is set on the wheel disc, and is contacted when rotating forward with each wedge block contact.
3. the gearbox according to claim 2 for automobile, it is characterised in that: the wheel disc is sheathed on the torsion sense
On Ying Huan, and the wheel disc and the torque sensing ring are key connection.
4. the gearbox according to claim 1 for automobile, which is characterized in that further include:
Axle sleeve is sheathed on the variable-speed shaft;The first end of the axle sleeve is connect with the body pivot, and second end with it is described
4th gear is fixedly connected;The torque sensing ring is located in the cavity of the axle sleeve, and is slidably connected with the axle sleeve.
5. the gearbox according to claim 4 for automobile, it is characterised in that: the torque sensing ring and the axle sleeve
The surface being in contact is the conical surface.
6. the gearbox according to claim 4 for automobile, it is characterised in that: the elastic element is disc spring, and institute
It is multiple for stating the quantity of elastic element;Each disc spring is sheathed on the variable-speed shaft, and each disc spring sequentially connects
It connects;The first end of multiple disc springs is contacted with the cabinet contact, and second end is contacted with the torque sensing ring contact.
7. the gearbox according to claim 6 for automobile, it is characterised in that: each disc spring is located at the axle sleeve
Cavity in, and the outer peripheral surface of each disc spring and the axle sleeve clearance fit.
8. the gearbox according to claim 1 for automobile, which is characterized in that further include:
Second one-way clutch is sheathed in the connecting shaft;The second gear is sheathed on second one-way clutch;
Sleeve is sheathed on the variable-speed shaft, and is rotatablely connected with the variable-speed shaft;The outer peripheral surface of the sleeve is equipped with the second spiral shell
Line section, and the thread rotary orientation of second thread segment is opposite with the thread rotary orientation of first thread segment;The first of the sleeve
End is connected with the third gear, and second end and the output gear clearance fit;The second end of the sleeve is equipped with retaining ring;
With
Reverse gear wheel, is sheathed on the sleeve, and between the third gear and the retaining ring;The inner circumferential of the wheel that reverses gear
Face is threadedly coupled with second thread segment, the axial movement for variable-speed shaft described in the drive lower edge in the sleeve;It is described
The wheel that reverses gear is contacted in third gear reversion with the output gear contact.
9. the gearbox according to claim 8 for automobile, which is characterized in that further include:
Bracket is mutually clamped with the wheel that reverses gear, and the bracket is with elastically-deformable metal frame, for turning in the sleeve
The wheel that reverses gear described in driving when dynamic is axially moveable;With
Connecting rod, first end are fixedly connected with the bracket, and second end is fixedly connected with the cabinet.
10. the gearbox according to claim 8 for automobile, which is characterized in that second one-way clutch includes:
Star-wheel is sheathed in the connecting shaft, and outer peripheral surface is equipped with multiple gear teeth;Each gear teeth are wedge shaped, and along institute
The circumferential direction for stating star-wheel is evenly distributed;Each gear teeth and the angled setting of the star-wheel;With
Wheel hub is sheathed on the star-wheel, and is contacted when the star-wheel is rotated forward with each gear teeth contact;The wheel hub with
The second gear is fixedly connected, and for driving the second gear to rotate.
Priority Applications (1)
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CN201822098321.6U CN209430690U (en) | 2018-12-14 | 2018-12-14 | Gearbox for automobile |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201822098321.6U CN209430690U (en) | 2018-12-14 | 2018-12-14 | Gearbox for automobile |
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CN209430690U true CN209430690U (en) | 2019-09-24 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109538708A (en) * | 2018-12-14 | 2019-03-29 | 辛集市宇泰机械有限公司 | Gearbox for automobile |
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2018
- 2018-12-14 CN CN201822098321.6U patent/CN209430690U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109538708A (en) * | 2018-12-14 | 2019-03-29 | 辛集市宇泰机械有限公司 | Gearbox for automobile |
CN109538708B (en) * | 2018-12-14 | 2023-12-22 | 辛集市宇泰机械有限公司 | Gearbox for a motor vehicle |
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