CN108240419A - Drive shaft locking system and power-driven system and vehicle - Google Patents

Abstract

The invention discloses a kind of drive shaft locking systems and power-driven system and vehicle, drive shaft locking system to include：Planetary gear mechanism；First drive shaft, the second drive shaft and power engagement device, power engagement device includes the first joint portion and the second joint portion, first drive shaft is connected with sun gear, and the first drive shaft is also configured to rotate synchronously with the first joint portion, second drive shaft is connected with gear ring, and the second drive shaft is also configured to rotate synchronously with the second joint portion；Joint portion driving device, joint portion driving device include：Drive needle and driving portion, driving needle around the center axis thereof of sun gear and can be axially movable with planet carrier, driving portion is for driving driving needle that the second joint portion is driven to be moved in an axial direction to close to the direction at the first joint portion, so as to which the second joint portion be made to engage the first joint portion.Drive shaft locking system can improve the ability of getting rid of poverty of vehicle with two drive shafts of locking in this way.

Description

Drive shaft locking system and power-driven system and vehicle

Technical field

The present invention relates to technical field of vehicle more particularly to a kind of drive shaft locking system for vehicle and with should The power-driven system of drive shaft locking system, the also vehicle with the power-driven system.

Background technology

In the relevant technologies, new-energy automobile employs distributed type of drive, and both sides wheel is respectively driven by two motors, Rotating speed, the torque of left and right wheel can independently be adjusted by controller, are eliminated differential mechanism in this way, but easily beaten certain Still need locking left and right half under ways condition to improve trafficability.It if should by traditional electric locking formula differential mechanism For the new-energy automobile of distribution driving, then the differential function of differential mechanism, and traditional electric locking formula differential are wasted Device is complicated, and parts are more, and occupied space is more.

Invention content

The present invention is directed to solve at least some of the technical problems in related technologies.For this purpose, the present invention carries Go out a kind of drive shaft locking system for vehicle, which can be conducive to two drive shafts of locking Vehicle is got rid of poverty.

The present invention further proposes a kind of power-driven system.

The present invention further also proposed a kind of vehicle.

Drive shaft locking system according to the present invention for vehicle, including：Planetary gear mechanism, the planetary gear machine Structure includes sun gear, planetary gear, planet carrier and gear ring；First drive shaft, the second drive shaft and power engagement device, the power Engagement device includes the first joint portion and the second joint portion, and first drive shaft is connected with the sun gear, and first drives Moving axis is also configured to rotate synchronously with the first joint portion, and second drive shaft is connected with the gear ring, second drive shaft It is also configured to rotate synchronously with second joint portion；Joint portion driving device, the joint portion driving device include：Drive needle And driving portion, the driving needle is arranged to can be with the planet carrier around the center axis thereof of the sun gear and can be relatively described Planet carrier moves axially, and the both ends of the driving needle coordinate respectively with the driving portion and second joint portion, the driving Portion is arranged for that the driving needle is driven to drive second joint portion along the axial direction to close to first joint portion Direction is moved, so as to which second joint portion be made to engage first joint portion；Wherein, the driving needle wears the planet Frame, the planetary gear are mounted on by planet wheel spindle on the planet carrier, and the driving needle is spaced apart with the planet wheel spindle.

Drive shaft locking system according to the present invention, when the first joint portion and the engagement of the second joint portion, the first drive shaft And second be mutually locked between drive shaft, the first drive shaft and the second drive shaft can rotate synchronously, and then can be conducive to vehicle Get rid of poverty.Moreover, by arranging joint portion driving device and power engagement device, it can realize that the first drive shaft and second is driven The locking of moving axis can so that drive shaft locking system is simple in structure in this way, and reliable function realization, parts are few, small, into This is low.

In addition, drive shaft locking system according to the present invention can also have following distinguishing feature：

In some examples of the present invention, the driving portion includes：Servo-actuated portion, the servo-actuated portion can turn with the driving needle It is dynamic, and the servo-actuated portion can be braked, and drive surface is provided in the servo-actuated portion, by described when the servo-actuated portion is braked It drives slip of the needle in the drive surface and makes the drive surface driving driving needle along the axial movement, so that described Second joint portion engages the first joint portion engagement.

In some examples of the present invention, the driving portion further includes：Braking parts, the braking parts are arranged for braking The servo-actuated portion.

In some examples of the present invention, the braking parts are arranged to utilize portion servo-actuated described in electromagnetism dynamic braking.

In some examples of the present invention, the driving portion is electromagnetic brake, and the servo-actuated portion forms the electromagnetic system The brake component of dynamic device, the braking parts form the brake bracket of the electromagnetic brake.

In some examples of the present invention, servo-actuated portion's empty set is in first drive shaft.

In some examples of the present invention, the drive surface is inclined-plane or curved surface.

In some examples of the present invention, the drive surface includes：First segment and second segment, the first segment and described Two sections are connected, and the junction of the first segment and the second segment is minimum point, the first segment and the second segment it is separate The other end of the junction is peak.

In some examples of the present invention, the servo-actuated portion includes：It is servo-actuated portion's ontology and is arranged on servo-actuated portion's ontology On annular servo-actuated portion's flange, be provided with the drive surface on the end face of the direction of the servo-actuated portion's flange driving needle.

In some examples of the present invention, drive surface limiting slot, one end of the driving needle are provided in the drive surface In the drive surface limiting slot.

In some examples of the present invention, the planet carrier is two and is separately positioned on the both sides of the sun gear, institute It states driving needle and wears two planet carriers.

In some examples of the present invention, the drive shaft locking system further includes：Sleeve, the sleeve connection is described Between gear ring and second drive shaft, second joint portion is rotated with the sleeve and relatively described sleeve can be moved axially It is dynamic.

In some examples of the present invention, sleeve axial groove is provided on the sleeve, is set on second joint portion There is the second joint portion raised, second joint portion protrusion is arranged in the sleeve axial groove, so that second engagement Portion can be rotated with the sleeve and relatively described sleeve is axially movable.

In some examples of the present invention, second joint portion empty set is in first drive shaft.

In some examples of the present invention, first joint portion and second joint portion are accommodated in the sleeve It is interior.

In some examples of the present invention, further include：Elastic device, the elastic device flexibly compress described second and connect Conjunction portion is so that second joint portion has the trend moved to the direction far from first joint portion.

In some examples of the present invention, first drive shaft is provided on the end face of second drive shaft First driving shaft flange, the first driving shaft flange is opposite with second joint portion, and the elastic device flexibly compresses Between the described first driving shaft flange and second joint portion.

In some examples of the present invention, the elastic device is helical spring and is sleeved in first drive shaft.

In some examples of the present invention, first joint portion is arranged and is fixed in first drive shaft, described Helical spring is located at the outside at first joint portion.

In some examples of the present invention, the elastic device is accommodated in the sleeve.

In some examples of the present invention, the drive shaft locking system further includes：Elastic device, the elastic device bullet Property compress second joint portion so that second joint portion has to the direction far from first joint portion moves Trend.

In some examples of the present invention, first joint portion has multiple the first circumferentially distributed engagement teeth, institute Stating the second joint portion has multiple the second circumferentially distributed engagement teeth.

In some examples of the present invention, the second joint portion limiting slot, the driving are provided on second joint portion One end of needle is located at second joint portion limiting slot.

In some examples of the present invention, the gear ring has integrally formed annular extension, the annular extension Form the sleeve.

In some examples of the present invention, multiple arcs connection strap is provided between the gear ring and the sleeve, it is described Multiple arcs connection strap is circumferentially spaced to be distributed and is fixed respectively with the gear ring and the sleeve weld.

In some examples of the present invention, the planet carrier has multiple protrusive boards of circumferentially spaced distribution, described more A protrusive board is divided into the first protrusive board and the second protrusive board, and multiple first protrusive boards and multiple second protrusive boards interlock cloth in the circumferential It puts, first protrusive board is provided with the driving for supporting the driving needle for installing planet wheel spindle on second cam Needle support holes.

Power-driven system according to the present invention, including：The drive shaft locking system for vehicle；First is electronic Generator, first dynamotor and first drive shaft are driven and output power to one in pair of wheels； Second dynamotor, second dynamotor are driven with second drive shaft and output power in pair of wheels Another.

The advantageous effect of the power-driven system is identical with the advantageous effect of the drive shaft locking system, herein no longer It is described in detail.

Vehicle according to the invention, including the power-driven system.

The advantageous effect of the vehicle is identical with the advantageous effect of the power-driven system, and this will not be detailed here.

Description of the drawings

Fig. 1 is the schematic diagram of drive shaft locking system according to embodiments of the present invention；

Fig. 2 is the explosive view of drive shaft locking system according to embodiments of the present invention；

Fig. 3 is the structure diagram of drive shaft locking system according to embodiments of the present invention；

Fig. 4 is the structure diagram in servo-actuated portion；

Fig. 5 is sleeve and the structure diagram of the second drive shaft；

Fig. 6 is the sectional view of drive shaft locking system according to embodiments of the present invention；

Fig. 7 is the structure diagram of planetary gear mechanism；

Fig. 8 is the schematic diagram of power-driven system according to embodiments of the present invention；

Fig. 9 is the schematic diagram of power-driven system according to embodiments of the present invention.

Reference numeral：

Power-driven system 1000；

Drive shaft locking system 100；

Planetary gear mechanism 10；Sun gear 11；Planetary gear 12；Planet carrier 13；First protrusive board 131；Second protrusive board 132；Tooth Circle 14；

First drive shaft 20；First driving shaft flange 21；

Second drive shaft 30；

Power engagement device 40；First joint portion 41；First engagement tooth 411；Second joint portion 42；Second joint portion protrusion 421；Second engagement tooth 422；

Joint portion driving device 50；Drive needle 51；Driving portion 52；Servo-actuated portion 521；Servo-actuated portion ontology 521a；Servo-actuated portion is convex Edge 521b；

Braking parts 522；

Drive surface 523；First segment 523a；Second segment 523b；Drive surface limiting slot 523c；

Sleeve 60；Sleeve axial groove 61；Arc connection strap 62；

Elastic device 70；

First dynamotor D1；Second dynamotor D2；Third dynamotor D3；4th dynamotor D4；

The near front wheel Z1；Left rear wheel Z2；Off-front wheel Y1；Off hind wheel Y2.

Specific embodiment

The embodiment of the present invention is described below in detail, the example of the embodiment is shown in the drawings.Below with reference to The embodiment of attached drawing description is exemplary, it is intended to for explaining the present invention, and is not considered as limiting the invention.

Below with reference to the accompanying drawings drive shaft locking system 100 according to embodiments of the present invention is described in detail, the drive shaft locking Device 100 can be applied on vehicle, especially suitable for the new-energy automobile using distributed driving, drive shaft locking system 100 can be used for two drive shafts of locking, so that left and right wheels rotate synchronously, can greatly improve vehicle and get rid of poverty energy Power, vehicle can be electric vehicle, but not limited to this.

As depicted in figs. 1 and 2, drive shaft locking system 100 according to embodiments of the present invention can include：Planetary gear machine Structure 10, the first drive shaft 20, the second drive shaft 30, power engagement device 40 and joint portion driving device 50.

Planetary gear mechanism 10 includes sun gear 11, planetary gear 12, planet carrier 13 and gear ring 14, and planetary gear 12 can rotate Ground is mounted on planet carrier 13, and planetary gear 12 is engaged between sun gear 11 and gear ring 14, and planetary gear 12 can be as a result, Passing power between sun gear 11 and gear ring 14.Wherein, planetary gear 12 can be multiple, such as three, and three planetary gears 12 can It is uniformly distributed with the central axis about sun gear 11.Planet wheel spindle can be installed, planetary gear 12 is mounted on planet carrier 13 On planet wheel spindle.

First drive shaft 20 and the second drive shaft 30 are two independent axis, for example, the first drive shaft 20 can be with left vehicle Wheel transmission, the second drive shaft 30 can be with right wheel drive.The axis of first drive shaft 20 and the second drive shaft 30 can be conllinear. However, the present invention is not limited thereto, such as the first drive shaft 20 can also be right axle shafts, and the second drive shaft 30 can be left half axle.

Power engagement device 40 includes the first joint portion 41 and the second joint portion 42, the first drive shaft 20 and 11 phase of sun gear Even, and the first drive shaft 20 is also configured to rotate synchronously (i.e. synchronized, equidirectional rotation) with the first joint portion 41, the second driving 30 gear ring 14 of axis is connected, and the second drive shaft 30 is also configured to rotate synchronously (i.e. synchronized, equidirectional rotation) with the second joint portion 42.

Joint portion driving device 50 can include：Needle 51 and driving portion 52 are driven, driving needle 51 is arranged to planet Frame 13 around sun gear 11 center axis thereof, and drive needle 51 be arranged to move axially with respect to planet carrier 13.

The both ends of driving needle 51 coordinate respectively with 52 and second joint portion 42 of driving portion, and driving portion 52 is arranged for driving Needle 51 is driven to drive the second joint portion 42 in an axial direction to close to the direction at the first joint portion 41 (side from left to right i.e. shown in FIG. 1 To) mobile, so as to which the second joint portion 42 be made to engage the first joint portion 41.

Wherein, as shown in fig. 7, driving needle 51 wears planet carrier 13, needle 51 and planet wheel spindle is driven to be spaced apart.It drives as a result, Dynamic needle 51 and planet wheel spindle are two components independent of each other, can reduce the change of planet carrier 13 in this way, pass through reasonable Arrangement Needle 51 is driven, drive shaft locking system 100 can be caused to realize corresponding latch functions.Optionally, in this embodiment, needle is driven 51 are arranged in parallel with planet wheel spindle 13.

That is, planet carrier 13 can drive driving needle 51 to rotate synchronously, and driving portion 52 can drive driving needle 51 move from left to right, and since one end of driving needle 51 coordinates with the second joint portion 42, drive needle 51 can be with synchronous drive in this way Second joint portion 42 moves from left to right, the second joint portion 42 constantly close to the first joint portion 41, until the second joint portion 42 with First joint portion 41 engages, wherein, when the first joint portion 41 and the engagement of the second joint portion 42, the first drive shaft 20 and second is driven It is mutually locked between moving axis 30, the first drive shaft 20 and the second drive shaft 30 can rotate synchronously, the power of such skidding side It can be exported by opposite side, and then getting rid of poverty for vehicle can be conducive to.

Traditional electric locking formula differential mechanism is the addition electric actuation locking machine on the basis of common open type differential Structure so as to which differential mechanism has latch functions, passes through electrical control differential mechanism locking.This is that one kind is usually applied to centralized driving formula The electric locking differential mechanism of fuel-engined vehicle, i.e. power are respectively allocated to left and right half after main reducing gear, differential mechanism, by difference Fast device adjusts left and right difference in wheel.But cannot be directly applied on electric vehicle, such electric locking differential mechanism volume is big, and And electric vehicle does not have engine.

Drive shaft locking system 100 of the invention is clearly distinguishable from traditional electronic from structure and realization method as a result, Locking differential moreover, by arranging joint portion driving device 50 and power engagement device 40, can realize the first drive shaft 20 and second drive shaft 30 locking, can cause that drive shaft locking system 100 is simple in structure in this way, reliable function realization, zero Component is few, small, at low cost.

Wherein, as shown in Figure 1, planetary gear mechanism 10, power engagement device 40, the first drive shaft 20 and the second drive shaft 30 is coaxially arranged.Thus, it is possible to so that 100 radial dimension of drive shaft locking system is small, it is small, it occupies little space.

Wherein, as shown in Figure 1, driving portion 52 can include：Servo-actuated portion 521, being servo-actuated portion 521 can be with 51 turns of needle of driving It is dynamic, and servo-actuated portion 521 can be braked, and drive surface 523 is provided in servo-actuated portion 521, and servo-actuated portion 521 passes through drive when being braked Dynamic slip of the needle 51 in drive surface 523 makes drive surface to change driving needle 51 and the position that is engaged of drive surface 523 523 driving driving needles 51 are axially moveable, so that the second joint portion 42 engages the first joint portion 41.It is understood that with Before dynamic portion 521 is not braked, it can be synchronous rotation relationship to be servo-actuated portion 521 and driving needle 51, but is made in servo-actuated portion 521 After dynamic, the rotating speed for being servo-actuated portion 521 reduces, and speed discrepancy will occurs between servo-actuated portion 521 and driving needle 51, and drive needle 51 can in this way To be slided in the drive surface 523 in servo-actuated portion 521, the driving needle 51 after sliding can be moved axially with respect to planet carrier 13, from And drive needle 51 that the second joint portion 42 can be driven to move closer to the first joint portion 41, until the second joint portion 42 is engaged with first Portion 41 engages.

Further, as shown in Figure 1, driving portion 52 can also include：Braking parts 522, braking parts 522 are arranged for making Dynamic servo-actuated portion 521.That is, braking parts 522 can play the role of the servo-actuated portion 521 of braking, when the first joint portion 41 of needs When being engaged with the second joint portion 42, braking parts 522 can brake servo-actuated portion 521.

Preferably, braking parts 522 can be arranged to be servo-actuated portion 521 using electromagnetism dynamic braking.Electromagnetic force control is accurate and can It leans on, so as to improve the functional reliability of drive shaft locking system 100, the use of drive shaft locking system 100 can be extended Service life.For example, driving portion 52 can be electromagnetic brake, it is servo-actuated the brake component that portion 521 forms electromagnetic brake, braking parts 522 Form the brake bracket of electromagnetic brake.Using the control mode of electromagnetic brake and planetary gear mechanism, drive shaft can be simplified The control system of locking system 100 and it can cause system reliability higher.

Optionally, as shown in Figure 1, servo-actuated portion 521 can be with empty set in the first drive shaft 20.Thus, it is possible to advantageously In servo-actuated portion 521 and the cooperation between needle 51 is driven, but also drive shaft locking system 100 can be reduced at least to some extent Axial length, the volume of drive shaft locking system 100 can be reduced.

A specific embodiment according to the present invention, as shown in figure 4, drive surface 523 can be inclined-plane or curved surface.Pass through Drive surface 523 is arranged to inclined-plane or curved surface, can be conducive to that needle 51 is driven to slide in drive surface 523, and can promote Driving needle 51 is made to move in the axial direction.

Further, drive surface 523 can include：First segment 523a and second segment 523b, first segment 523a and second segment 523b is connected, and the junction of first segment 523a and second segment 523b is minimum point, and first segment 523a and second segment 523b's is separate The other end of junction is peak.As a result, when one end of needle 51 is driven to be in minimum point, the first joint portion 41 and second connects Conjunction portion 42 is in discrete state, when the one end for driving needle 51 is at the highest notch or during neighbouring peak, the first joint portion 41 and the Two joint portions 42 are in engagement state.In this way by reasonable Arrangement drive surface 523, can be conducive to drive needle 51 in minimum point and It is slided between peak, the engagement at the first joint portion 41 and the second joint portion 42 can be conducive in this way, can be conducive to be promoted The functional reliability of drive shaft locking system 100.

Preferably, each section in first segment 523a and second segment 523b all can be arc-shaped.The first of circular shape Section 523a and second segment 523b can be conducive to drive slip of the one end of needle 51 in drive surface 523, can reduce driving needle 51 moving resistance.

Optionally, each section of corresponding center of circle angle in first segment 523a and second segment 523b is identical.Such first segment 523a and second segment 523b are essentially identical, so as to be more conducive to slip of the driving needle 51 in drive surface 523.

Optionally, drive surface 523 can be multistage, and 523 circumferentially spaced distribution of multistage drive surface.It drives as a result, The quantity of dynamic needle 51 can be corresponding with the quantity of drive surface 523, can increase the quantity of driving needle 51 in this way, so as to so that It obtains 51 and second joint portion 42 of multiple driving needles to coordinate reliably, the second joint portion 42 can be caused to move axially reliably, can be made Drive shaft locking system 100 work it is more reliable.

Wherein, can be connected between multistage drive surface 523 by connecting plane, connection plane is concordant with peak.In this way Structural reliability of the servo-actuated portion 521 on the surface of drive surface 523 can be improved at least to some extent, can promote drive shaft lock The structural reliability of locking apparatus 100.

An alternative embodiment according to the present invention, as shown in figure 4, servo-actuated portion 521 can include：Servo-actuated portion ontology 521a With the servo-actuated portion's flange 521b of annular being arranged on servo-actuated portion's ontology 521a, it is servo-actuated the direction driving needle 51 of portion flange 521b Drive surface 523 is provided on end face.Portion ontology 521a servo-actuated in this way can effectively enhance the structural reliability in servo-actuated portion 521, and And can drive surface 523 be set on the end face of servo-actuated portion flange 521b, so as to reduce the design difficulty of drive surface 523, The structural reliability of drive surface 523 can be improved.

Further, as shown in figure 4, drive surface limiting slot 523c can be provided in drive surface 523, the one of driving needle 51 End is located in drive surface limiting slot 523c.As a result, by setting drive surface limiting slot 523c, can to drive one end of needle 51 Cooperation can prevent one end of driving needle 51 from drive surface 523 at least to some extent in this way in drive surface limiting slot 523c Middle disengaging can improve mobile reliability and stability of the driving needle 51 in drive surface 523.

Wherein, as shown in Figure 1, planet carrier 13 can be two, and two planet carriers 13 are separately positioned on sun gear 11 Both sides, driving needle 51 wear two planet carriers 13.Driving needle 51 needs coordinate with the second joint portion 42 as a result, drive in this way The axial length of needle 51 is larger, so by arranging two planet carriers 13 spaced apart, can advantageously ensure that driving needle 51 Stability is arranged, so as to improve the structural reliability of drive shaft locking system 100 and driving needle 51 can be made to install together Axis degree improves, and when axial movement is also not easy to deviate.

Optionally, as shown in Fig. 1, Fig. 3, Fig. 5 and Fig. 6, drive shaft locking system 100 can also include：Sleeve 60, sleeve 60 are connected between 14 and second drive shaft 30 of gear ring, and the second joint portion 42 is rotated with sleeve 60, and 42 phase of the second joint portion Sleeve 60 can be moved axially.60 and second drive shaft 30 of sleeve can be integrally formed part, and then sleeve 60 can be with tooth Circle 14 is connected.Wherein, the second joint portion 42 is rotated with sleeve 60, and such second joint portion 42 can be driven by sleeve 60 and second Moving axis 30 rotates synchronously, and is moved axially by the way that the second joint portion 42 is arranged to relative sleeve 60, and second can be promoted to connect Conjunction portion 42 can be moved axially with respect to the first joint portion 41, and not influence 60 and second drive shaft 30 of sleeve, so as to carry The structural reliability and functional reliability of high drive shaft locking system 100.

Further, as shown in Figure 2 and Figure 5, sleeve axial groove 61 is provided on sleeve 60, is set on the second joint portion 42 There is the second joint portion protrusion 421, the second joint portion protrusion 421 is arranged in sleeve axial groove 61, so that the second joint portion 42 It can be rotated with sleeve 60, and 42 relative sleeve 60 of the second joint portion is axially movable.Sleeve axial groove 61 axially extends, Axial movement that in this way can be in order to the second joint portion protrusion 421 on sleeve axial groove 61, and limitation can be conducive to The circumferential position of two joint portion protrusions 421 can enable sleeve 60 that the second joint portion 42 is driven to rotate synchronously.Wherein, it covers Cylinder axial groove 61 can be multiple, and multiple sleeve axial grooves 61 can be evenly spaced on the inner surface of sleeve 60, second Joint portion protrusion 421 can be multiple, and multiple second joint portion protrusions 421 are corresponded with multiple sleeve axial grooves 61.

Wherein, as shown in Figure 1, the second joint portion 42 can be with empty set in the first drive shaft 20.Second set in this way connects Conjunction portion 42 can be conducive to reduce the axial dimension of drive shaft locking system 100, and can be conducive to reduce drive shaft locking The volume of device 100, in addition, can also be conducive to improve the arrangement reliability at the second joint portion 42 in this way.

Optionally, as shown in figures 1 to 6, the first joint portion 41 and the second joint portion 42 can be accommodated in sleeve 60. Sleeve 60 can play the role of protecting the first joint portion 41 and the second joint portion 42, and can be to avoid the first engagement as a result, The lubricating oil at 41 and second joint portion 42 of portion leaks out, and can improve the structural reliability of drive shaft locking system 100.

Wherein, as shown in Figure 1, drive shaft locking system 100 can also include：Elastic device 70,70 elasticity of elastic device Ground compresses the second joint portion 42 so that the second joint portion 42 has the trend moved to the direction far from the first joint portion 41.It can be with Understand, when needing to release the lockup state between the first drive shaft 20 and the second drive shaft 30, the second joint portion 42 needs Will be far from the first joint portion 41, at this point, braking parts 522 stop the servo-actuated portion 521 of braking, elastic device 70 can drive the second engagement Portion 42 is moved to the direction far from the first joint portion 41, so that the second joint portion 42 is detached with the first joint portion 41, Such first drive shaft, 20 and second drive shaft 30 working condition back to normal.

Optionally, as shown in Figure 2 and Figure 6, the first drive shaft 20 is provided with the on the end face of the second drive shaft 30 One driving shaft flange 21,21 and second joint portion 42 of the first driving shaft flange is opposite, and elastic device 70 is flexibly pressed on first Between 21 and second joint portion 42 of driving shaft flange.One end of the first driving shaft flange 21 is against by the way that elastic device 70 is stopped, It can ensure the arrangement reliability of elastic device 70, and the axial movement at the second joint portion 42 can be conducive to.Preferably, bullet Property device 70 can be helical spring, and helical spring is set in the first drive shaft 20.Helical spring arrangement in this way is reliable, The global reliability of drive shaft locking system 100 is preferable.

As shown in Fig. 2, the first joint portion 41 is arranged and is fixed in the first drive shaft 20, helical spring is located at the first engagement The outside in portion 41.The structural reliability of the first joint portion 41 and the first drive shaft 20 on the one hand can be improved in this way, on the other hand The radial space of the first drive shaft 20 can be rationally utilized, the arrangement that can improve helical spring and the first joint portion 41 is reliable Property.

Optionally, as shown in figures 1 to 6, elastic device 70 can be accommodated in sleeve 60.Sleeve 60 can play receiving The effect of elastic device 70 can improve the arrangement reliability of elastic device 70 in this way.

A specific embodiment according to the present invention, as shown in Fig. 2, the first joint portion 41 is with multiple circumferentially distributed First engagement tooth 411, the second joint portion 42 have multiple the second circumferentially distributed engagement teeth 422.It is understood that when the When one engagement tooth 411 and second engages the cooperation of tooth 422, the first joint portion 41 and the second joint portion 42 engage, multiple by setting First engagement tooth 411 and multiple second engagement teeth 422, the cooperation that can improve the first joint portion 41 and the second joint portion 42 are reliable Property.

Optionally, the second joint portion limiting slot can be provided on the second joint portion 42, one end of driving needle 51 is located at the Two joint portion limiting slots.By setting the second joint portion limiting slot, the second joint portion 42 and one end of driving needle 51 can be improved Cooperation reliability, the overall work reliability of drive shaft locking system 100 can be improved.

Wherein, there are many arrangements of gear ring 14.

For example, optionally, gear ring 14 has integrally formed annular extension, annular extension forms sleeve 60.In this way On the one hand gear ring 14 and sleeve 60 connect the manufacture difficulty that reliably, on the other hand can reduce drive shaft locking system 100, can be with Reduce the cost of drive shaft locking system 100.

Certainly, the present invention is not limited thereto, as shown in Figures 2 and 3, multiple arcs is provided between gear ring 14 and sleeve 60 Connection strap 62, the 62 circumferentially spaced distribution of multiple arcs connection strap, and multiple arcs connection strap 62 respectively with gear ring 14 and Sleeve 60 is welded and fixed.That is, each arc connection strap 62 can play the role of being fixedly connected with gear ring 14 and sleeve 60, And connection strap setting camber, its edge with gear ring 14 and sleeve 60 can be caused to be adapted, drive shaft lock can be improved The overall structure reliability of locking apparatus 100.

As shown in Fig. 2, the first drive shaft 20 is connected with sun gear 11, the second drive shaft 30 is connected with gear ring 14, drives needle 51 wear planet carrier 13.Planet carrier 13 has multiple protrusive boards of circumferentially spaced distribution, and multiple protrusive boards are divided into the first protrusive board 131 With the second protrusive board 132, interlaced arrangement, the first protrusive board 131 are used in the circumferential for multiple first protrusive boards 131 and multiple second protrusive boards 132 In installing planet wheel spindle, the driving needle support holes for supporting driving needle 51 are provided on the second protrusive board 132.In this way in planet carrier On 13, planet wheel spindle and driving needle 51 are non-interference each other, thereby may be ensured that setting of the driving needle 51 on planet carrier 13 can By property.

A kind of power-driven system 1000 according to embodiments of the present invention is described below in detail.

As shown in Figure 8 and Figure 9, which can include the drive shaft for vehicle of above-described embodiment Locking system 100, the first dynamotor D1 and the second dynamotor D2, the first dynamotor D1 and the first drive shaft 20 Transmission, and the first dynamotor D1 outputs power to one in pair of wheels, the second dynamotor D2 and second Drive shaft 30 is driven, and the second dynamotor D2 outputs power to another in pair of wheels.Work as drive shaft in this way When 100 the first drive shaft of locking 20 of locking system and the second drive shaft 30, two wheels rotate synchronously, when drive shaft locking system When 100 non-the first drive shafts of locking 20 and the second drive shaft 30, the first dynamotor D1 and the second dynamotor D2 difference It works independently to drive corresponding wheel with suitable rotational speed.

Wherein, as shown in figure 8, in power-driven system 1000, the drive shaft locking system 100 of above-described embodiment can be with It is applied only in one group of wheel.Be provided between first dynamotor D1 and the near front wheel Z1 first gear c1, second gear c2, Third gear c3, the 4th gear c4, the 5th gear c5 and the 6th gear c6, wherein, first gear c1 is fixed on the first electronic hair On the motor shaft of motor D1, second gear c2 and first gear c1 engagements, second gear c2 are also coaxially fixed with third gear c3, Third gear c3 is engaged with the 4th gear c4, and the 4th gear c4 is fixed in the first drive shaft 20, also solid in the first drive shaft 20 Surely there is the 5th gear c5, the 6th gear c6, the 5th gear c5 and the 6th gear c6 engagement are connected on the semiaxis of the near front wheel Z1, this The power of the first dynamotor of sample D1 can pass to the near front wheel Z1 by above-mentioned three groups of meshed gears, and certainly, first drives Moving axis 20 can also play the role of in transmittance process it is corresponding, and between first gear c1 and second gear c2, third tooth It can play the role of slowing down between wheel c3 and the 4th gear c4 and increase square.

Certainly, the present invention is not limited thereto, as shown in figure 9, in power-driven system 1000, the driving of above-described embodiment Axis locking system 100 can be applied in two groups of wheels.For example, drive shaft locking system 100 can be two, a drive shaft Locking system 100 coordinates in the near front wheel Z1 and off-front wheel Y1, and the first dynamotor D1 and the drive shaft locking system 100 the first drive shaft 20 is driven, and the second drive shaft 30 of the second dynamotor D2 and the drive shaft locking system 100 pass It is dynamic.

Another drive shaft locking system 100 coordinates in left rear wheel Z2 and off hind wheel Y2, and third dynamotor The first drive shaft 20 of D3 and the drive shaft locking system 100 are driven, the 4th dynamotor D4 and the drive shaft locking system 100 the second drive shaft 30 is driven.

Specific embodiment to be shown in Fig. 1 and combination Fig. 8 below, is described in detail drive shaft according to embodiments of the present invention The working process and principle of locking system 100.

In vehicle normal straight when driving, the first dynamotor D1 and the second dynamotor D2 individually work, The controller of vehicle can control the first dynamotor D1 and the second dynamotor D2 in the same direction and synchronized work, left front in this way Wheel Z1 and off-front wheel Y1 can at the same speed and rotate in same direction.

In vehicle normal turn when driving, controller can control the first dynamotor D1 and the second dynamotor D2 In the same direction and different rotating speeds, for example, when turning left, the rotating speed of the first dynamotor D1 can be less than the second dynamotor D2's Rotating speed can cause the rotating speed of off-front wheel Y1 to be more than the rotating speed of the near front wheel Z1, realize.

During above-mentioned vehicle normal straight traveling and vehicle normal turn traveling, in the effect of elastic device 70 Under, one end of the driving needle 51 in drive shaft locking system 100 is at the minimum point for the drive surface 523 for being servo-actuated portion 521, this When, driving needle 51 is in synchronous rotation state with servo-actuated portion 521.

When the stranded skidding of vehicle, driver controls electromagnetic brake energization work, and brake bracket braking brake component is made in this way The rotating speed of moving part is suppressed, and drives and speed discrepancy is generated between needle 51 and brake component, driving needle 51 is in the drive surface 523 of brake component Upper slip, driving needle 51 can slide into the position of peak or neighbouring peak from the minimum point of drive surface 523, drive needle 51 move axially to the side at the second joint portion 42, so as to drive needle 51 that the second joint portion 42 can also be driven to move closer to first Joint portion 41, until the first joint portion 41 and the second joint portion 42 engage, at this point, the first drive shaft 20 and the second drive shaft 30 are same Step rotation, so as to improve the ability of getting rid of poverty of vehicle.

After vehicle is got rid of poverty, driver can press electromagnetic brake, electromagnetic brake power-off again, and elastic device pushes Second joint portion 42 is moved axially to the direction far from the first joint portion 41, and in the process, driving needle 51 is with the second joint portion 42 axial movements, one end that driving needle 51 coordinates with drive surface 523 can be gradual from the position of peak or neighbouring peak Minimum point is slid into, at this point, the second joint portion 42 and the first joint portion 41 are kept completely separate, vehicle can be according to above-mentioned vehicle just Normal straight-line travelling and vehicle normal turn driving mode continue to travel.

Vehicle according to embodiments of the present invention, the power-driven system 1000 including above-described embodiment.

In the description of this specification, reference term " one embodiment ", " example ", " is specifically shown " some embodiments " The description of example " or " some examples " etc. means specific features, structure, material or the spy for combining the embodiment or example description Point is contained at least one embodiment of the present invention or example.In the present specification, schematic expression of the above terms are not It must be directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be in office It is combined in an appropriate manner in one or more embodiments or example.In addition, without conflicting with each other, the skill of this field Art personnel can tie the different embodiments or examples described in this specification and the feature of different embodiments or examples It closes and combines.

Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example Property, it is impossible to limitation of the present invention is interpreted as, those of ordinary skill in the art within the scope of the invention can be to above-mentioned Embodiment is changed, changes, replacing and modification.

Claims (28)

1. a kind of drive shaft locking system for vehicle, which is characterized in that including：

Planetary gear mechanism, the planetary gear mechanism include sun gear, planetary gear, planet carrier and gear ring；

First drive shaft, the second drive shaft and power engagement device, the power engagement device include the first joint portion and second Joint portion, first drive shaft are connected with the sun gear, and the first drive shaft be also configured to it is synchronous with the first joint portion Rotation, second drive shaft are connected with the gear ring, and second drive shaft is also configured to synchronous with second joint portion Rotation；

Joint portion driving device, the joint portion driving device include：Drive needle and driving portion, the driving needle is arranged to can be with The planet carrier around the sun gear center axis thereof and can planet carrier axial movement relatively, the two of the driving needle End coordinates respectively with the driving portion and second joint portion, and the driving portion is arranged for that the driving needle is driven to drive Second joint portion is moved along the axial direction to the direction close to first joint portion, so as to connect second joint portion Close first joint portion；

Wherein, the driving needle wears the planet carrier, and the planetary gear is mounted on by planet wheel spindle on the planet carrier, institute Driving needle is stated to be spaced apart with the planet wheel spindle.

2. the drive shaft locking system according to claim 1 for vehicle, which is characterized in that the driving portion includes：

Servo-actuated portion, the servo-actuated portion can be with the driving needle rotation, and the servo-actuated portion can be braked, and be set in the servo-actuated portion Drive surface is equipped with, slip of the needle in the drive surface is driven to make the drive surface by described when the servo-actuated portion is braked The driving needle is driven along the axial movement, so that second joint portion engages the first joint portion engagement.

3. the drive shaft locking system according to claim 2 for vehicle, which is characterized in that the driving portion also wraps It includes：

Braking parts, the braking parts are arranged for braking the servo-actuated portion.

4. the drive shaft locking system according to claim 3 for vehicle, which is characterized in that the braking parts are arranged to Utilize portion servo-actuated described in electromagnetism dynamic braking.

5. the drive shaft locking system according to claim 4 for vehicle, which is characterized in that the driving portion is electromagnetism Brake, the servo-actuated portion form the brake component of the electromagnetic brake, and the braking parts form the system of the electromagnetic brake Moving frame.

6. the drive shaft locking system according to claim 2 for vehicle, which is characterized in that servo-actuated portion's empty set exists In first drive shaft.

7. the drive shaft locking system according to claim 2 for vehicle, which is characterized in that the drive surface is inclined-plane Or curved surface.

8. the drive shaft locking system according to claim 2 for vehicle, which is characterized in that the drive surface includes： First segment and second segment, the first segment are connected with the second segment, and the junction of the first segment and the second segment is most The other end far from the junction of low spot, the first segment and the second segment is peak.

9. the drive shaft locking system according to claim 8 for vehicle, which is characterized in that the servo-actuated portion includes： Servo-actuated portion's flange of servo-actuated portion's ontology and the annular being arranged on servo-actuated portion's ontology, described in the direction of servo-actuated portion's flange It drives and is provided with the drive surface on the end face of needle.

10. the drive shaft locking system according to claim 2 for vehicle, which is characterized in that set in the drive surface Drive surface limiting slot is equipped with, one end of the driving needle is located in the drive surface limiting slot.

11. the drive shaft locking system according to claim 1 for vehicle, which is characterized in that the planet carrier is two Both sides that are a and being separately positioned on the sun gear, the driving needle wear two planet carriers.

12. the drive shaft locking system according to claim 1 for vehicle, which is characterized in that the drive shaft locking Device further includes：Sleeve, the sleeve connection is between the gear ring and second drive shaft, and second joint portion is with institute It states sleeve rotation and relatively described sleeve is axially movable.

13. the drive shaft locking system according to claim 12 for vehicle, which is characterized in that set on the sleeve There is sleeve axial groove, the second joint portion protrusion is provided on second joint portion, second joint portion protrusion is arranged on institute It states in sleeve axial groove, so that second joint portion can be rotated with the sleeve and relatively described sleeve is axially movable.

14. the drive shaft locking system according to claim 12 for vehicle, which is characterized in that second joint portion Empty set is in first drive shaft.

15. the drive shaft locking system according to claim 12 for vehicle, which is characterized in that first joint portion It is accommodated in the sleeve with second joint portion.

16. the drive shaft locking system according to claim 12 for vehicle, which is characterized in that further include：Elasticity dress It puts, the elastic device flexibly compresses second joint portion so that second joint portion has to connecing far from described first The trend of the direction movement in conjunction portion.

17. the drive shaft locking system according to claim 16 for vehicle, which is characterized in that first drive shaft Be provided with the first driving shaft flange on the end face of second drive shaft, the first driving shaft flange and described second Joint portion is opposite, and the elastic device is flexibly pressed between the first driving shaft flange and second joint portion.

18. the drive shaft locking system according to claim 17 for vehicle, which is characterized in that the elastic device is It helical spring and is sleeved in first drive shaft.

19. the drive shaft locking system according to claim 18 for vehicle, which is characterized in that first joint portion It is arranged and is fixed in first drive shaft, the helical spring is located at the outside at first joint portion.

20. the drive shaft locking system according to claim 16 for vehicle, which is characterized in that the elastic device is received It is contained in the sleeve.

21. the drive shaft locking system according to claim 1 for vehicle, which is characterized in that further include：Elasticity dress It puts, the elastic device flexibly compresses second joint portion so that second joint portion has to connecing far from described first The trend of the direction movement in conjunction portion.

22. the drive shaft locking system according to claim 1 for vehicle, which is characterized in that first joint portion With multiple the first circumferentially distributed engagement teeth, second joint portion has multiple the second circumferentially distributed engagement teeth.

23. the drive shaft locking system according to claim 22 for vehicle, which is characterized in that second joint portion On be provided with the second joint portion limiting slot, one end of the driving needle is located at second joint portion limiting slot.

24. the drive shaft locking system according to claim 12 for vehicle, which is characterized in that the gear ring has one Body formed annular extension, the annular extension form the sleeve.

25. the drive shaft locking system according to claim 12 for vehicle, which is characterized in that the gear ring with it is described Be provided with multiple arcs connection strap between sleeve, the circumferentially spaced distribution of the multiple arc connection strap and respectively with the tooth Circle and the sleeve weld are fixed.

26. the drive shaft locking system according to claim 1 for vehicle, which is characterized in that

The planet carrier has multiple protrusive boards of circumferentially spaced distribution, and the multiple protrusive board is divided into the first protrusive board and second convex Interlaced arrangement, first protrusive board are used to install row in the circumferential for plate, multiple first protrusive boards and multiple second protrusive boards Spider gear shaft is provided with the driving needle support holes for supporting the driving needle on second cam.

27. a kind of power-driven system, which is characterized in that including：

The drive shaft locking system for vehicle according to any one of claim 1-26；

First dynamotor, first dynamotor are driven with first drive shaft and output power to a pair of of vehicle One in wheel；

Second dynamotor, second dynamotor are driven with second drive shaft and output power to a pair of of vehicle Another in wheel.

28. a kind of vehicle, which is characterized in that including power-driven system according to claim 27.