Source: https://patents.google.com/patent/CN102149947B/en
Timestamp: 2020-08-05 18:02:01
Document Index: 359768026

Matched Legal Cases: ['arts 22', 'arts 29', 'arts 22', 'arts 32', 'arts 39', 'arts 32', 'arts 42', 'arts 49', 'arts 42', 'arts 42', 'arts 32', 'arts 32', 'arts 105']

CN102149947B - Engine power management for selectable one-way clutch or mechanical diode in automatic transmissions - Google Patents
Engine power management for selectable one-way clutch or mechanical diode in automatic transmissions Download PDF
CN102149947B
CN102149947B CN200980135209.6A CN200980135209A CN102149947B CN 102149947 B CN102149947 B CN 102149947B CN 200980135209 A CN200980135209 A CN 200980135209A CN 102149947 B CN102149947 B CN 102149947B
CN200980135209.6A
CN102149947A (en
2008-09-09 Priority to US12/206853 priority Critical
2008-09-09 Priority to US12/206,853 priority patent/US8478498B2/en
2008-09-09 Priority to US12/206,853 priority
2009-09-02 Priority to PCT/US2009/055642 priority patent/WO2010030536A2/en
2011-08-10 Publication of CN102149947A publication Critical patent/CN102149947A/en
2014-04-09 Publication of CN102149947B publication Critical patent/CN102149947B/en
238000005183 dynamical system Methods 0.000 claims description 15
Engine power management for the selectable one-way clutch in automatic transmission or mechanical diode
The present invention relates to have the speed changer of selectable one-way clutch.
The summary of this part has only been to provide background information related to the present invention, does not form prior art.
The present invention relates to the speed changer with selectable one-way clutch in vehicle powertrain, this overrunning clutch is for being optionally transferred to output block by moment of torsion from input block.Potential embodiment comprises a selectable one-way clutch, with rotation input clutch be used in combination, described rotation input clutch skid with advance and astern direction on engage.Clutch engages and can complete by multiple known method.In friction clutch connected structure, the one or more cltuch slipping in described speed changer and gradually joint, to be used for the torque transfer from described motor to start to described speed changer gradually.In without friction clutch connected structure, clutch is bonded in the situation that there is no cltuch slipping and carries out, and this just requires to need to make clutch synchronization before engaging generation.
Speed changer, with the work of one of multiple Transmission gear state, defines the direction that is applied to the moment of torsion on described output block, and describes the velocity ratio that is applied to the moment of torsion of described input block and the relation of the moment of torsion on described output block.Exemplary speed changer, comprises eight Transmission gear, comprises six forward gearss, a reverse gear, and a neutral gear gear.
A kind of vehicle powertrain that assembles automatic transmission can comprise the torque-converters between described motor and speed changer.In replacement scheme, flywheel and spacer structures can be used between described motor and speed changer.Some automatic transmission comprises low speed/reversing brake coupling and overrunning clutch, while skidding with convenient input clutch, along direction of advance and astern direction, provides reaction torque, thereby in the situation that there is no torque-converters, starts described vehicle.
Overrunning clutch is used to multiple use, so as by from the first rotatable transmission part or input block as the power of input seat ring or the first web, selectivity is input to the second independently driven member or output block, as output seat ring or the second web.In use, when clutch transfer of torque described in described transmission part is when driven member rotates along a first direction.When the relative sense of rotation of the relative driven member of described transmission part is during along contrary or second direction, described clutch can discharge or make transmission part separated with driven member.Once discharge, described transmission part can rotate freely along described the second contrary relatively described driven member of direction.Under this pattern, described overrunning clutch is freely with hypervelocity or " surmounting ".Surmount described vehicle can be advanced with coast motion mode, described power train is separated with described motor, to eliminate, rotates to described power train the loss that described motor is relevant.
Engine braking is a kind of operation, reduce whereby the moment of torsion that is transported to described transmission part, the link maintaining between described transmission part and driven member connects, and by this connection, be delivered in the reaction torque being produced by rotary engine in the situation that applied power and the pumping force in motor reduce, thereby slowed down driven member.Surmounting of overrunning clutch makes described transmission part separated with described driven member, inconsistent with engine brake operation.At the engine braking being equipped with by the motor of the overrunning clutch of mode work mentioned above, need additional components, for example, extra clutch, to optionally link described transmission part and described driven member, to complete engine braking.
Exemplary front-wheel drive, six fast automotive vehicle speed changers, adopt in three gear trains and five torque transfer parts (clutch) structure, one of described clutch, is below known as low speed and reverse clutch, is only used to manual low speed and reversing.When first grade of described forward mode, described low speed is separated with reverse clutch.Between the input and output parts of described low speed and reverse clutch, there is no relative movement, because the reaction torque acting on the overrunning clutch that the input block of described low speed and reverse clutch is connected has stoped rotation.But, on every other forward gears, second to the 6th grade of forward mode, because applied one or more other clutches in described speed changer, does not have reaction torque to act on described overrunning clutch.Therefore, described overrunning clutch surmounts and have relative movement between described low speed and reverse clutch parts.Relative rotation speed between described low speed and reverse clutch input and output parts increases along with follow-up each time gear change.
Known as those of ordinary skill in the art, separated multiplate clutch according to multiple condition, can produce resistance when there is relative movement between described input and output parts.A feature of separated multiplate clutch is that, along with the increase of the relative rotation speed between described input and output parts, being conventionally accompanied by resistance increment or spin loss increases.This spin loss has caused fuel economy reduction.Because described low speed is separated with reverse clutch on all forward gearss of described exemplary six gear transmissions with this particular gear group and clutch configuration, and most of speed changer mode of operation is in forward gear ratio, and total spin loss of the considerable amount of described speed changer is attributable to the low speed of described separation and the resistance on reverse clutch.
The fundamental mode aspect of a kind of selectable one-way clutch (SOWC) is similar to overrunning clutch.But, according to its design details, SOWC can produce mechanical connection in one or two sense of rotation between transmission and driven member.In addition, according to its design, SOWC can exceed the speed limit in one or two sense of rotation.Generally, SOWC comprise one can external control selection mechanism, thereby, when moving to the second, in the time of may being even the 3rd position, control the mode of operation of described device.Replaced the SOWC of overrunning clutch as described above and low speed and reverse clutch structure to reduce a part complexity for described speed changer, reduced weight and the cost of described speed changer, and reduced total spin loss.
The transmission part of SOWC depends on engage torque transfer element (roller normally, voussoir, the rocking bar of described SOWC to the ability of driven member transfer of torque, or pillar etc.) can freely engage the one or more cams in adjacent component, otch, recess, or similar characteristics.Similarly, the ability that described transmission part surmounts along the relatively described driven member of one or two direction depends on whether described joint element can freely interact with adjacent parts equally.Generally, rotatable snap ring or selector panel have been used for to this task, by allowing or be limited in the joint of the torque transfer element between described transmission and driven member.Other similar clutch designs are well known in the art and can be used as one-way clutch device, comprise synchronizer and dog-clutch.Can imagine the many multiple clutch designs that can bring into play SOWC effect, and the disclosure is not intended to be confined to these disclosed concrete exemplary herein.
According to its application, SOWC can be designed to two kinds of patterns or three kinds of work patterns.The present invention introduces double mode SOWC.Specifically, the present invention relates to realize the SOWC of the first separated type and the second engaged mode.Described split pattern comprises that described SOWC is with the work of overrunning clutch form, as described above, and can be along direction of advance transfer of torque with along surmounting in the other direction.Described engaged mode, comprises the described clutch of locking, stops described transmission part along the relative rotation of any direction.Under described engaged mode, described clutch operation is along direction of advance and astern direction transfer of torque.Selection between two kinds of patterns, comprises actuating selection mechanism, for example, rotates snap ring or selector panel between annular location, is designated hereinafter simply as selector panel.
Operation be equipped with by the speed changer with SOWC of structure as mentioned above conventionally requirements at SOWC that can separation has engaged from initial gear gear up.But, the continuous engine braking of vehicle may experience locking SOWC state, and the moment of torsion wherein transmitting by SOWC can stop the separation of SOWC.By elimination, lock SOWC state and promote that the method for SOWC separation will be also useful.
A kind of vehicle powertrain, this dynamical system comprises electromechanical speed changer, this speed changer comprises that, without frictional engagement selectable one-way clutch, this overrunning clutch is operatively connected with combustion engine mechanical, thereby is suitable for optionally mechanical power transmission to output block and torque-converters.A kind of method of controlling described dynamical system, comprise the jointing state of monitoring described selectable one-way clutch, the order of monitoring gear up, monitoring motor is to the speed of the axle of torque-converters, monitoring torque-converters is to the speed of the axle of speed changer, when described monitoring detects described selectable one-way clutch joint and described gear up order, according to the speed of the axle of the torque-converters of described motor and described torque-converters, to the speed of the axle of speed changer, determine the relative rotation speed of described torque-converters.According to the selectable one-way clutch state of described relative rotational diagnosis locking.Moment of torsion according to the selectable one-way clutch status command of described locking from described motor increases.And order described selectable one-way clutch separated.
To by reference to the accompanying drawings one or more embodiments be described with the form of giving an example below, wherein:
Fig. 1 schematically shows according to the graphical diagram of exemplary dynamical system 10 of the present invention;
Fig. 2 is according to exemplary clutch table of the present invention, illustrates in order to realize the operation of various Transmission gear states various clutches in exemplary speed changer;
Fig. 3 is the show in schematic partial sections that has adopted the exemplary speed changer of SOWC of the present invention;
Figure 4 and 5 be illustrated between one-way operation and full lock operation, select according to the sectional view of SOWC of the present invention;
Fig. 4 represents the feature 100 of SOWC of the present invention, and an one joint element is in lower position, and a joint element is in upper position;
Fig. 5 represents that 100, two joint elements of feature of SOWC of the present invention are all in upper position;
Exemplary engine braking event when Fig. 6 presents in diagrammatic form according to the manual mode order order when by first grade of the present invention;
Fig. 7 represents that according to description of the invention, can manage SOWC engages the flow chart with separated example process;
Fig. 8 is according to the exemplary dynamical system that comprises the control system that adopts ETC that schematically shows of the present invention;
Fig. 9 schematically shows according to exemplary torque-converters of the present invention; With
Figure 10 presents in diagrammatic form according to the exemplary engine control of promotion SOWC of the present invention separation.
Referring to accompanying drawing, wherein, accompanying drawing is for some exemplary is described, rather than will limit scope of the present invention, and Fig. 1 schematically shows according to the graphical diagram of exemplary dynamical system 10 of the present invention.Described dynamical system comprises motor 12, planetary transmission 14, and conventional main reducing gear mechanism 16.
Planetary transmission 14, comprises the input shaft 17 being connected all the time with motor 12, and planetary gear system 18, with the output shaft 19 being connected all the time with described main reducing gear mechanism 16.Torque-converters can be between motor 12 and input shaft 17.If there is no torque-converters, isolator is located between motor 12 and input shaft 17.Planetary gear system 18, comprises three planetary gear set 20,30 and 40.
The first planetary gear set 20, comprises sun gear parts 22, ring gear component 24, and planetary pinion frame component 26.Planetary pinion frame component 26, comprise be rotatably installed on gear carrier parts 29 and be with described sun gear parts 22 and ring gear component 24 a plurality of small gears 27 that meshing relation is arranged.
The second planetary gear set 30, comprises sun gear parts 32, ring gear component 34, and planetary pinion frame component 36.Planetary pinion frame component 36, comprise be rotatably installed on gear carrier parts 39 and be with sun gear parts 32 and annular element 34 a plurality of small gears 37 that meshing relation is arranged.
Third planet gear train 40, comprises sun gear parts 42, ring gear component 44, and planetary pinion frame component 46.Planetary pinion frame component 46, comprises a plurality of small gears 47,48 that are rotatably installed on gear carrier parts 49.Small gear 47 is meshing relation with sun gear parts 42 to be arranged, small gear 48 is meshing relation with ring gear component 44 and arranges.Ring gear component 34 is to be integrated with ring gear component 44.Third planet gear train 40 is dual planetary gear groups.
Described planetary gear system also comprises five torque transmitting mechanisms 50,52,54,56 and 58.Torque transmitting mechanisms 50,54,56th, rotating type torque measuring transfer mechanism, is commonly referred to as clutch.Clutch 50,54, and the 56 multiplate clutch devices normally for example with friction launch structure.Torque transmitting mechanisms 52 is fixed torque transmitting mechanisms, is generally known as braking or reaction clutch.Torque transmitting mechanisms 58 is SOWC.
Input shaft 17 is connected all the time with described ring gear component 24, and output shaft 19 is connected all the time with described ring gear component 44.Planetary pinion frame component 26 can be connected with sun gear parts 42 selectivity by clutch 50.Sun gear parts 32 can be connected with transmission case 60 selectivity by break 52.Planetary pinion frame component 26 can be connected with sun gear parts 32 selectivity by clutch 54.Ring gear component 24 can be connected with planetary pinion frame component 46 selectivity by clutch 56.Planetary pinion frame component 36 can be connected with transmission case 60 selectivity by described braking overrunning clutch 58.
Fig. 2 is according to exemplary clutch table of the present invention, illustrates in order to realize the operation of the various clutches of various Transmission gear states in exemplary speed changer.Torque transmitting mechanisms 50,52,54,56 and 58 engage with combination of two form selectivity, to six forward velocity ratios and a back-up speed ratio are provided between input shaft 17 and output shaft 19.
Described back-up speed ratio is to set up according to the joint of clutch 54 and SOWC58.The numerical value of this exemplary back-up speed ratio is 3.20.Clutch 54 skids to start vehicle in astern direction.
Described the first forward velocity ratio is to set up according to the joint of clutch 50 and SOWC58.The numerical value of this exemplary the first forward velocity ratio is 4.06.Clutch 50 skids to start vehicle along direction of advance.
Described the second forward velocity ratio is to set up according to the joint of clutch 50 and break 52.The numerical value of this exemplary the second forward velocity ratio is 2.37.
Described the 3rd forward velocity is than being to set up according to the joint of clutch 50,54.The numerical value of this exemplary the 3rd forward velocity ratio is 1.55.
Described the 4th forward velocity is than being to set up according to the joint of clutch 50,56.The numerical value of this exemplary the 4th forward velocity ratio is 1.16.
Described the 5th forward velocity is than being to set up according to the joint of clutch 54,56.The numerical value of this exemplary the 5th forward velocity ratio is 0.85.
The 6th forward velocity ratio is to set up according to the joint of break 52 and clutch 56.The numerical value of this exemplary the 6th forward velocity ratio is 0.67.
As described above, for exemplary joint plan or the clutch of torque transmitting mechanisms shown in Fig. 1, plan shown in truth table shown in Fig. 2.In addition, chart shown in Fig. 2 shows the ratio stride that utilizes sample tooth to obtain than (not shown).For example, described first and second forward velocity than between stride ratio be 1.71, and described reversing and first advance than between stride ratio be-0.79.One of ordinary skill in the art will appreciate that and can also determine easily by truth table shown in Fig. 2: all single step width advance than exchange be all single transition change, two strides advance than exchange be all also single transition change.
Fig. 3 is the show in schematic partial sections that has adopted the exemplary speed changer of SOWC according to of the present invention.As shown in the figure, speed changer 14 comprises transmission case 60, and this transmission case is surrounded the planetary gear set 30,40 around axle 17 rotations.The position of SOWC 58 as shown in Figure 3.The outer race 70 of SOWC 58 is by spline joint in the teeth groove in transmission case 60 72.The inner race 74 of SOWC 58 by spline joint on planetary carrier assembly 36.Snap ring 76 keeps SOWC58 in position.
Described SOWC58 can be controllable mechanical diode clutch or the design of selectable roller clutch.It is considered herein that other selectable (reversible) overrunning clutchs can be according to limiting and use herein together with the present invention.
Provide for using the illustrative methods of the selector panel position of hydraulic actuating piston and the double mode SOWC of Returnning spring mechanism controls, this mechanism is the part being integrally formed of the valve body moulding in front wheel drive transmission.
In a kind of exemplary configurations of front-wheel drive automatic transmission, described valve component is positioned at a side of rotation torque element, aligns and be fixed on described speed changer case by locating engagement pin and threaded fastener with speed changer case.Therefore another cylinder blanket of casting on the internal surface of described valve inner provides the hole that comprises piston, for controlling rotatablely moving of described selector panel, and controls the mode of operation of described SOWC.The center line of described cylindrical hole feature is perpendicular to the spin axis of described speed changer, and is positioned at ideally in the plane identical with the rotation camber line of selector panel.This makes can direct mechanical to connect between selector panel in described SOWC and the hydraulic control in described valve body.
Described piston directly contacts with actuator plate movably.Feature in described actuator plate, is here a groove, align and engage, thereby the joint forming between described SOWC and hydraulic control connects with the selector lever that is arranged on the selector panel distal end on described SOWC.Can also adopt other connecting means, as fork-join closes the otch in flat board.Hard barrier structure design, in the piston hole of described control mechanism, limits the axial motion of described actuator plate.Described barrier structure has dual functions.First, they,, by promoting the groove in described actuator plate to align with the selector lever on described SOWC, are more easily connected to described valve body on speed changer.Secondly, when described SOWC is during in forward mode, they stop selector panel in described SOWC to become the hard barrier structure of described Returnning spring power.When reversing mode, they stop described selector panel to become the hard barrier structure that described piston applies power, to minimize wearing and tearing in advance or the damage of described SOWC.
Energy accumulating device, as compression or Returnning spring, is contained in guiding shell, and guiding shell is fixed on the internal surface of described valve inner equally.Described spring applies predetermined power in described actuator plate, to it is biased into primary importance.Because described selector panel lever arm is engaged and is connected with described actuator plate by described speed change lever, so described selector panel is maintained at the first angular orientation, and described SOWC is as described above only with split pattern work.But, when described transmission part is along the second rotation or when surmounting direction and rotating, Returnning spring power must be enough to stop viscous and the surface friction drag in described SOWC to cause described selector panel unexpectedly from its first jiao of position, to rotate to second jiao of position.
Because described actuator plate contacts with the bottom surface of piston, described Returnning spring power is the upper end bias voltage to described piston hole by described piston also.Pressurization automatic transmission fluids from the designated lane on described valve body guides to the upper end of described piston hole by inlet opening.Ideally, the hydraulic fluid channel in inner valve body part is defined as and makes special-purpose SOWC control channel directly pass through the below of the upper end of described piston hole, thereby short glide path is easily provided.
When the pattern in described transmission control algorithum order SOWC changes, the hydraulic fluid of pressurization enters the upper end of described piston hole by the passage of described special use.Described piston moves to the bottom of described piston hole, compresses described Returnning spring, described actuator plate is moved to its second place simultaneously.Because described selector panel lever arm is engaged and is connected with actuator plate by speed change lever, so being rotated, described selector panel moves to the second angular orientation.Therefore, described double mode SOWC is with " reversing " work pattern, as described above.
The method that has several known enforcement SOWC.Pillar, rocking bar, roller, or voussoir is the different feature that can be used for selectivity joint or separated described clutch component.Figure 4 and 5 represent the sectional view that SOWC of the present invention selects between unidirectional operation and full lock move surely.SOWC feature 100 comprises first component 105, second component 110, selector panel 115,135, two Returnning springs 140 of selector panel actuation feature 120, the first joint element 130, the second joint elements, and two engagement features 150.First component 105, second component 110 and selector panel 115 can be can be around the feature of common rotating shaft line (not shown) rotation.In replacement scheme, one of these parts can be fixed, but still provide a plane to rotate on it for miscellaneous part.Parts 105 and 110 preferable shape are circular dull and stereotyped.Selector panel 115 is sandwiched between above two parts, and conventionally with second component 110, moves or keep fixing.Selector panel 115 comprises selector panel actuation feature 120.Selector panel 115 can move with little angle of rotation relative to second component 110, to the correction of movement of selector panel actuation feature 120 is provided.Joint element 130 and 135, is expressed as pillar in this exemplary, navigates to rotatably on second component 110, and its direction is substantially perpendicular to the radius of described parts, and joint and the separation function of being supplied by SOWC is provided.Each joint element, when being in upper position, is arranged in the engagement features 150 in first component 105 regularly, and stops the relative second component 110 of first component 105 along a direction rotation.Due to by Returnning spring 140 applied forces, described joint element is in upper position conventionally.Selector panel 115 can activated by relatively described joint element, so that selector panel actuation feature 120 can be used for one of described joint element to press to lower position.Described joint is to stop counterrotating effect to depend on the geometrical shape of described interactional feature.In this exemplary embodiment, if two engagement features are in upper position, parts are impossible relative to relative rotation of another parts.If an engagement features is in lower position, described clutch just can be along conventionally being surmounted by the current direction that engagement features stoped in described lower position.
Fig. 4 represents that 100, one joint elements of SOWC feature are in lower position, and a joint element is in upper position.Joint element 135 is in upper position and is placed in engagement features 150.As a result, first component 105 can not rotate to left side relative to second component 110.But, joint element 130 is in lower position.135 pairs of first components 105 of joint element provide the resistance that is substantially zero to right rotation with respect to second component 110.When occurring that rotation relatively and first component 105 come in contact with joint element 135, lip-deep pressure joint element 135 tops, that approach level causes joint element 135 to be rotated down.This ratchet motion of joint element 135 can continue by joint element 135 along with follow-up engagement features rotation.
Fig. 5 represents that 100, two joint elements of SOWC feature are all in upper position.Selector panel 115 is that relatively described joint element activated, so that any joint element is not pressed down.As a result, the relative rotation of first component 105 and second component 110 is impossible.Each joint element is placed in engagement features 150, and provides resistance to the rotation along a direction.
Be understandable that, the parts of SOWC can have the feature of a plurality of SOWC of being similar to features 100, each is activated similarly, to allow or stop the rotation along any direction, the total torque transmitting by described SOWC is distributed between described SOWC feature.Similar SOWC feature known in the art is the slotted link mechanism with the joint element of a pair of far-end that is positioned at rocking bar, with the engagement features combination being positioned on relative parts, the actuating of waving based on described rocking bar, this slotted link mechanism can stop or allow rotation relatively equally.Also roller or voussoir alternatively can be used in a plurality of parts, an inner radial that is positioned at another in these parts, leaves gap between described parts.Can activate described roller or voussoir and interact in described gap, to optionally engage described parts along one or two sense of rotation.
As described above, when SOWC is used for to automatic transmission, can reduces parts and improve fuel efficiency.But when described SOWC need to engage, the two ends of described SOWC must be with identical speed rotation.Before described clutch engages, skidding in described clutch must equal zero substantially.
When not engaging, described SOWC works as common overrunning clutch, locked in the time of first grade, and surmounts on other gears time.When engaging, described SOWC is along both direction locking, and it can provide reverse gear and first grade of engine braking.Once described SOWC is in engaged mode, as long as described speed and gear arrange permission, it can keep engaging.Exemplary SOWC can remain on engaged mode continuously in parking, reversing, neutral gear and first grade of operation period.For example, when speed changer is from parking gear shifting to reverse gear or during neutral gear, described SOWC keeps engaging to be ready to described reverse gear.If described speed changer remains in reverse gear, described SOWC keeps engaging.When driver is by shift of transmission during to forward gears, described SOWC can keep engaging until vehicle speed-raising to the speed that surpasses threshold value low-speed range.Once separated, as long as described vehicle is kept above described threshold value low-speed range, it is separated to work as common overrunning clutch that described SOWC keeps.Disclosed the method for controlling the joint plan of SOWC.
Switch to described engaged mode and need zero sliding condition.The zero slippage that can realize in the SOWC that switches to described engaged mode can occur under various environment.Condition is present in when described dynamical system is initially located in parking state and transmission gear group in static or zero-speed state.Under these conditions and indication motor will start time, described SOWC just can engage at once, because skidding of SOWC is zero.
While working under described split pattern, once described car speed is reduced in described threshold value low-speed range, described SOWC just can switch to described engaged mode, thereby allows to apply moment of torsion along the opposite direction consistent with engine braking.As described above, switch to engaged mode and require synchronous or zero slip state in clutch.The rotating speed of described transmission and driven member must mate, to can realize zero slippage, switches to engaged mode.The speed of described driven member is by described power train appointment, and can not be in the situation that not affecting vehicle movement and maneuverability flip-flop.On the contrary, disclosed the method for mating the speed in described SOWC by changing engine speed, for example, by adopting Electronic Throttle Control (ETC).In the speed changer relevant with transmission output speed to engine output shaft rotating speed, the actual speed of transmission part and driven member depends on the concrete structure of speed changer.But, in the exemplary speed changer with fixing target velocity ratio (GR), in the situation that not skidding, the rotating speed of the transmission input shaft relevant to the rotating speed of transmission output shaft can calculate by following formula:
TransInputSpeed?=?GR?*?TransOutputSpeed??????[1]
Wherein, TransInputSpeed is input shaft rotating speed, and TransOutputSpeed is output shaft rotating speed.As described above, torque-converters is used between described motor and speed changer conventionally.In utilizing the system of torque-converters, the rotating speed of engine output shaft can calculate by following formula to the rotating speed of transmission input shaft:
EngineOutputSpeed= ?TransInputSpeed?+?TCSlipSpeed????[2]
Wherein engineOutputSpeedengine output shaft rotating speed, tCSlipSpeedit is torque-converters slip speed.Torque-converters slip speed is subject to the impact of the operation of described torque-converters and described parts.The prediction of torque-converters slip can be by the technology experiment ground of model or the operation of other applicable Exact Forecast dynamical systems, empirically, predictability completes, and can be by multiple prediction curve for different conditioned disjunction ranges of operation.Formula 1 and 2 combination have drawn following formula:
EngineOutputSpeed= ?GR?*?TransOutputSpeed?+?TCSlipSpeed?[3]
By utilizing described velocity ratio and torque-converters slip characteristic, motor output speed and speed changer output speed can be associated with each other.Therefore, known speed changer output speed or can be used for generating to making the synchronous useful target engine output speed of described SOWC parts in the output speed going up the sometime mapping of demarcating in gearshift end point.
By calculating target engine output speed, thereby can give an order quick adjustment motor to realize each desired speed in speed changer to motor.But, this target engine output speed may comprise error, this error be due to noise data and due to target engine output speed determine and engine response order and reach the time period between time of described command speed in the variation of the transmission output shaft speed that occurs cause.By directly or skidding of following the trail of in SOWC of the speed of definite SOWC parts can be used to determine and follow the trail of feedback error offset.This feedback error offset can be used for revising or increasing the order based on described target engine output speed, and guarantees that it is zero that SOWC skids.
In one embodiment, once motor reaches calculated zero sliding condition, described SOWC just engages, and described ETC stops at once.But, in order to ensure successful joint, disclosed another embodiment, wherein, engine speed has been driven to a little more than the speed corresponding to zero slippage, be then reduced to gradually by comprising the interval of zero slippage.Exceeding speed increment corresponding to zero slip velocity and can be fixed value and can be maybe according to test result, simulation or any other be enough to predict adjustable value that the means of speed changer operation draw, and can be called as the speed increment of demarcation.Like this, the SOWC that the instantaneous state of axle rotating speed or inaccurate measurement can not lead to the failure engages.
Described in while as described above, only having in described car speed is in threshold value low-speed range, the selection of engaged mode just can be implemented.If driver gains neutral gear from forward gears when car speed surpasses described threshold value low-speed range, it is separated that described SOWC keeps, until described Speed Reduction arrives lower than described threshold value.
The storehouse gear shift (rolling garage shift) of entering from forward gears to reverse gear only allows during lower than threshold value peristaltic velocity on first grade and when described car speed, in or lower than the speed of the upper limit of described threshold value low-speed range.If described car speed is higher than described threshold value peristaltic velocity, described shift of transmission is to neutral gear, and described SOWC keeps separation until car speed recovers lower than threshold value peristaltic velocity.Once described car speed is brought down below described threshold value peristaltic velocity, described SOWC just can engage, and described reverse clutch just can be implemented.
In described car speed is in described threshold value low-speed range and when Transmission gear state allows, can be according between the described split pattern of operating in of described vehicle and engaged mode, described SOWC being selected.Transmission control logic, the processing information about vehicle operator intention, comprises input and car speed from accelerator and brake pedal position, according to the engine braking activation of expectation or the vehicle inertia of expectation, slides selectivity order SOWC pattern.For example, if car speed lower than described threshold value low-speed range, and described vehicle operator sudden outburst gas pedal, the intention of vehicle deceleration can be considered to engine braking request.Correspondingly, in the time of in described vehicle is in described threshold value low-speed range, transmission control logic can be passed through in response to operator discharge described gas pedal described SOWC order engine braking.In a kind of embodiment of disclosure, when pushing ahead operation, described SOWC can only keep engaging at first grade.But, can imagine, in different gear train structures, described SOWC can keep engaging to allow engine braking on more gear, for example, occurs on second gear, and the present invention is not intended to be confined to the special specific embodiments disclosing herein.
Vehicle operator, except providing input by accelerator pedal and brake petal, can also show by manual mode order speed changer to the first grade the intention of ato unit braking.When sending, transfer the files downwards while being in described threshold value low-speed range to the order of first grade and described car speed, speed changer logic is sent engine braking request.As described above, described SOWC keeps being in split pattern until car speed is in described threshold value low-speed range.Once described engaged mode can realize, speed changer logic just orders skidding on described SOWC to be reduced to zero, and then described SOWC engages, and can carry out engine braking.
The exemplary engine braking event that Fig. 6 presents in diagrammatic form and orders by manual mode order to the first grade according to of the present invention.For common time scale, a plurality of factors associated with described vehicle powertrain in braking event procedure have been drawn.The gear of being ordered has been described the Transmission gear state of request.On exemplary plotted curve, the gear of being ordered starts and is at a time commanded to the first gear at the second gear, moves consistent with operator by the manual selective transmission of exemplary PRNDL selector on first grade.For second gear, realize clutch, for example, the order pressure of frictional engagement clutch, is reduced to zero from initial launch level.Needed clutch reaction torque, refers at first by the reaction torque of all clutches transmission that are employed on described second gear, reduces simultaneously and in section, becomes large in the transient time during gear shift.As described above, must realize zero slip state to SOWC is converted into engaged mode.SOWC skids and starts from a certain initial nonzero value.Process described transient time of section, engine speed changes, and for example, by application ETC, reaches the target velocity that can realize zero slippage gear shift.Before previous applied transmission clutch separation, the needed motor of speed mating in described SOWC changes and can not occur, described motor variation in other words can cause the perceptible variation of vehicle movement.It should be pointed out that disclosed example use second gear is as previous applied transmission clutch herein.But, can be from any forward gears to the gear shift of first grade for the car speed of engine braking or demonstration adaptation SOWC joint.The vehicle slowing down does not need to experience all gears when preparing for the new speed of a motor vehicle.A kind of illustrative methods of elapsed time of change of determining the described SOWC of adaptation of engine speed is that the separation based on described previous applied clutch starts described change, through skidding after section described transient time, be reduced to and be substantially zero, and described SOWC can engage subsequently.When described transient time, section finished, realize clutch for first grade, for example, the pressure on another frictional engagement clutch, is converted to certain working level from zero.Described first grade of pressure of realizing on clutch is commanded to described working level sometime afterwards, realizes clutch and applies reaction torque, and reduce car speed and engine speed by engine braking by described first grade.
Fig. 7 represents to illustrate the flow chart of example process of the present invention, can manage SOWC engage with separated by it.Process 400 starts from program block 402.At program block 404 places, determine described SOWC lock state.If described SOWC is locking not, described process just enters program block 406.If described SOWC is locked, described process just enters program block 424.At program block 406 places, determine whether described vehicle is in parking state and is being activated.If meet these conditions, described process just enters program block 422, and described SOWC is locked.If do not meet these conditions, described process just enters program block 408.At program block 408 places, determine whether described vehicle is in reverse gear state.If meet this condition, described process just enters program block 422, and described SOWC is locked.If do not meet this condition, described process just enters program block 410.At program block 410 places, determine that described vehicle is whether just to advance lower than the speed of threshold value peristaltic velocity and described speed changer is instructed to change to reverse gear.If meet these conditions, described process just enters program block 420, and makes described clutch synchronization think locked preparing.If do not meet these conditions, described process just enters program block 412.At program block 412 places, determine whether described vehicle is in neutral state.If meet this condition, described process just enters program block 418.If do not meet this condition, described process just enters program block 414.At program block 414 places, determine whether described vehicle is in first grade.If meet this condition, described process just enters program block 416.If do not meet this condition, described process is with regard to return information piece 402.At program block 416 places, determine that operator inputs the engine braking of whether indicating needs.If meet this condition, described process just enters program block 418.If do not meet this condition, described process is with regard to return information piece 402.At program block 418 places, determine whether described vehicle is in described threshold value low-speed range.If meet this condition, described process just enters program block 420, and makes described clutch synchronization think locked preparing.If do not meet this condition, described process is with regard to return information piece 402.Program block 420, comprises according to the disclosed method of this paper and makes the synchronous action of described SOWC.Program block 422, comprises according to the disclosed method of this paper and locks described SOWC.At program block 424, determine whether described vehicle is in described threshold value low-speed range.If meet this condition, described process just enters program block 426.If do not meet this condition, described process just enters program block 432, and wherein, described SOWC is separated according to disclosed herein method.At program block 426 places, determine whether described vehicle is on first grade of forward gears in addition.If do not meet this condition, described process just enters program block 428.If meet this condition, described process just enters program block 432, and wherein, described SOWC is according to disclosed herein method separation.At program block 428 places, determine whether described vehicle is started (aggressively launched) by sports formula.If do not meet this condition, described process just enters program block 430.If meet this condition, described process just enters program block 432, and wherein, described SOWC is according to disclosed herein method separation.At program block 430 places, determine that operator inputs whether to indicate higher/different gear of wishing that vehicle sliding enters.If do not meet this condition, described process is with regard to return information piece 402.If meet this condition, described process just enters program block 432, and wherein, described SOWC is according to disclosed herein method separation.As in process 400 by being back to as shown in the route of program block 402, according to the details of one or more control modules of using, wish to make described process to repeat continuously or circulation again and again.
Fig. 8 schematically shows the exemplary dynamical system that comprises the control system that adopts ETC according to of the present invention.Dynamical system 200 comprises motor 210, speed changer 220, and control system 230.Motor 210 provides moment of torsion by engine output shaft 240 for speed changer 220.Speed changer 220 changes into output torque by the torque axis from motor, and by transmission output shaft 245, described output torque is offered to power train (not shown).Control system 230, the electronics module that comprises the speed of monitoring axle 240 and 245, carry out and a plurality ofly determine to support, according to method provided by the invention, SOWC is converted to jointing state from separated state, and provide ETC order to produce zero slip state in described SOWC for described motor.In order to measure the rotational speed of described axle, speed probe 244 is to install near axle 240.In order to measure the rotational speed of axle, another speed probe 246 is to install near axle 242.Rotation speed sensor 244 and 246 is well-known devices that utilize the rotational speed of magnetic force, vision or the quantitative running shaft of other known methods.As described above, can be by using the speed that the gear factor relevant to first grade of described target is multiplied by axle 242 to draw for mating the engine target speed of described SOWC inner piece speed, and by ETC order to described motor.Once approach target velocity, and according to described target velocity, adjusted engine speed, just can utilize feedback term according to skidding of calculating from rotation speed sensor 244 and 246, thereby to accurately drive described engine speed to produce described zero slip state.Once realized zero slippage, described SOWC just can engage, signal is sent to control system 230, and described ETC just can be stopped to carry out normal engine control.
Slip speed feedback also can be used for the attempt that assessment engages SOWC.When skidding, can not be controlled as zero, for example, if motor approaches the maximum engine rotation speed limit, described engine braking request just can be cancelled or override, and engine control returns to normal parameter.
Described engaged mode is designed for low speed.When operator is when SOWC inputs sports formula startup vehicle by gas pedal when engaging, described SOWC stops any reverse load separated at once.This separation departs from described speed changer, to described vehicle is accelerated to outside the slow operation of planned described engaged mode by follow-up gear.
Engine braking is connected and applies reaction torque in described power train by maintaining the link of power train and motor under low dynamic regime.Comprise that the loss of described motor of described in-engine pumping force is as the deceleration factor on vehicle.But, in the example such as descending, although tend to accelerate the power of car speed, may cause vehicle also to accelerate in the SOWC situation engaging.In addition, thereby operator can also require to remain on low-grade location under higher car speed, carry out engine braking, then ask more high tap position.Result, engine speed may surpass described threshold value low-speed range, in this scope, SOWC joint is preferred, car speed may enter such scope, wherein, transmission shift strategies is higher speed changer range state preferably, and described in perception, the operator of fair speed can cancel described first grade of instruction, to allow speed changer to enter higher state.Although vehicle is that still the motor in low dynamic regime and the balance between power train still can maintain reaction torque by described SOWC with higher speed motion in this case.Refer again to Figure 4 and 5, it will be understood by those skilled in the art that, be applied to the state that power on the joint element that is in upper position and the transfer of torque between clutch component can form locking, wherein, dividing plate 115 can not be sent joint element back to lower position.Disclosed a kind of separation at first along the method for the SOWC of the joint of astern direction transfer of torque.
As described in said method, ETC can be used for ordering change engine speed, to produce zero slippage in previously separated SOWC.Similar method can be used for cancelling the reaction torque on the SOWC engaging, thereby so that can be by ordering the moment of torsion increase from motor to produce the next separated described SOWC of engine speed faster.The moment of torsion transmitting by described SOWC is not directly to measure.On the vehicle with certain speed motion, the equilibrium of forces acting on the vehicle in SOWC jointing state may cause direction of advance or astern direction moment of torsion on described SOWC, and the SOWC engaging will can not have because of the direction of this torque measurable slip or rotation.But, assembling on the vehicle of torque-converters between described motor and speed changer, is obvious in the relative movement of two parts of the direction of the moment of torsion applying between described motor and speed changer in described torque-converters.
Fig. 9 schematically shows according to exemplary torque-converters of the present invention.Torque-converters 300 comprises that motor is to the axle 310 of torque-converters, and torque-converters is to the axle 320 of speed changer, pump mechanism 330, and turbine mechanism 340.Moment of torsion transmits between described motor and speed changer by torque-converters 300.Axle 310 and axle 320 are not physical connections, but pump mechanism 330He turbine mechanism 340 interacts by the flowing medium being contained in torque-converters 300.Known pump mechanism 330 comprises fluid passage blade, and when described mechanism rotates, this blade produces motion in described fluid.The fluid interaction of described motion and produce viscous force in turbine mechanism 340, causes moving of edge and pump mechanism 330 moving direction equidirectionals.Equally, in reversing, the motion of turbine 340 makes described fluid in the interior motion of torque-converters 300, and causes the motion in pump mechanism 330.Any in-house motion all can cause another mechanism and should move.As described above, sensor can be used to measure the rotating speed of axle.Sensor can be installed near axle 310 and 320, and the relative rotation speed of axle can comparative measurement.By analyzing motor to the axle 310 of torque-converters and torque-converters to the relative movement of the axle 320 of speed changer, be combined with the known viscous characteristics of described torque-converters, can estimate the clean reaction torque of transmitting by described torque-converters.This clean reaction torque by described torque-converters can be used for describing direction and the size that acts on the moment of torsion on described SOWC, diagnose on described SOWC, stop from the state of the locking of described engaged mode separation, and estimation overcomes the increase of the moment of torsion required engine torque acting on described SOWC.
The pump mechanism rotating sooner than turbine mechanism represents that speed changer receives the moment of torsion from motor along postive direction.The SOWC state of illustrative methods diagnosis locking; Adopt motor order, for example, can send by ETC, to strengthen Engine torque, therefore and accelerate engine speed, until measure the relative rotational of described torque-converters, surpass a certain minimum relative rotational threshold value, described threshold value is demarcated as removing or overcoming the SOWC state of described locking; Order SOWC is separated; Then according to the SOWC diagnosis of described locking, finish motor order.Exemplary minimum relative rotational threshold value along the sense of rotation contrary with engine braking can be 20-30 rpm.
Order strengthens from the moment of torsion of motor to can separated described SOWC can adopt the form of different typical embodiments.For example, according to question blank and being enough to, predict that the moment of torsion that the model utilization of the operation of dynamical system is demarcated as the relative rotation speed that records at torque-converters two ends increases.In another example, from the moment of torsion of motor, can incrementally increase by a series of incremental systems or by the mode increasing gradually, until can realize separation or obtain specific relative rotational.In another example, described moment of torsion can increase with the curve of demarcating according to SOWC and motor behavior.In another example, the information of outside vehicle, as can being used to predictability, the slope that can obtain by the known 3D map in analysis power territory or gps data or the analysis by driving style or custom or terrain information prevent from entering SOWC engaged mode, the separated described SOWC of predictability before vehicle speed-raising, or according to known characteristic, as vehicle arrives the increase that the foot of the hill regulates Engine torque.
Figure 10 presents in diagrammatic form and controls according to the exemplary engine of promotion SOWC of the present invention separation.Data track shown in Figure 10 and data track shown in Figure 6 are similar, and difference is, accept from the SOWC gear in engaging be adjusted to the order that SOWC must be separated top gear with the speed changer of data declaration shown in Figure 10.Reaction according to transmission control strategy to vehicle-state, has described from a certain initial gear to the order gear change of high tap position more.According to shown in shift command, adjust the order issue described SOWC selector mechanism.As described above, a kind of state that may occur is, the SOWC having engaged may become locking based on engine braking load, although make that SOWC has been sent to separated order, changes, and SOWC can keep locking.When starting gear shift, SOWC skids should be increased, and shows that described SOWC success is separated, and according to moving and surmount under high tap position more.On the contrary, according to the SOWC state of the method diagnosis locking disclosing herein, for example, by analysis torque-converters relative rotation speed as shown in figure 10.The negative relative velocity that is at least the big or small torque-converters of demarcation allows to think that described SOWC is in the state of locking.As response, engine speed is accelerated in order, and as passed through ETC, as described above, described engine speed is accelerated, and acts on the load minimizing of described SOWC, to can realize separation.In canonical process shown in Figure 10, once described torque-converters relative rotation speed, surpass positive 40 value, the order that increases engine air throttle just stops.As those of ordinary skills, can understand, the response lag of motor is in some time of described change engine air throttle order.In the replacement scheme of throttle forward order of utilizing torque-converters relative rotation speed to stop to send to motor, the level that engine speed increases can be demarcated according to the speed changer output speed of measuring, can make to increase according to skidding of measurement and continue and it is controlled, maybe may there is order continuous or the described SOWC of separation that repeat, when successfully separation being detected, described increase stops.But, the torque-converters of measuring is skidded, and to regulate with respect to these additive methods be preferred, because the relative rotation speed of described torque-converters allows directly assessment to act on moment of torsion on described SOWC and the possible lock state of described SOWC, rather than infers and remove the necessary engine speed of described lock state according to the behavior of described dynamical system.Figure 10 represents to bring up to peak value according to successfully separated engine speed, reduces subsequently engine speed, and the SOWC increase of skidding.
The engine control of ETC is as described above to control by the engine control module (ECM) as a general control system part.Similarly, transmission control is to complete in the transmission control module as a general control system part (TCM).When overall operation, described control system can operate with synthetic operation person and input, environmental conditions, engine operating parameter, and combustion performance is measured, and execution algorithm, thereby to control various actuators, realize the target of controlling parameter, comprise following parameter, as fuel economy, discharge, performance and handling.Described control system is operationally connected with a plurality of devices, by these device operators, controls or instruct described engine operation.Exemplary operator input comprises accelerator pedal, brake petal, Transmission gear selector, and the control of cruising of the car speed when described motor is used to vehicle.Described control system can be passed through Local Area Network (' LAN') bus or control domain net (' CAN') (not shown) and other controllers, sensor, communicate by letter with actuator, the control parameter between the various controllers of control domain network optimization choosing permission and the structure of order are communicated by letter.
Described control system is operationally connected with speed changer with described motor, and its effect is the supplemental characteristic obtaining from sensor, and by suitable interface, controls the various actuators of described motor.Described control system receives Engine torque order, and inputs according to described operator the moment of torsion output that generation needs.By control system, use the exemplary engine running parameter of the sensor sensing to comprise engineer coolant temperature, crankshaft rotating speed (' RPM') and position, manifold absolute pressure, stream of ambient air and temperature, and environmental air pressure.The sensor that can monitor crankshaft rotating position can be used for monitoring or definite motor and the process of each cylinder in each stage of burning cycle.Combustion performance parameter can comprise and measurement and combustion parameter that infer especially comprises air/fuel ratio, and the position of peak combustion pressure.Various velocity transducers are distributed in speed changer, for measuring and estimate the speed of different parts in speed changer.
Control system preferably includes general purpose digital computer, it generally comprises microprocessor or central processing unit (CPU), read-only memory (ROM), random access memory (RAM), the ROM (read-only memory) of electrically programmable (EPROM), high-frequency clock, modulus (A/D) and digital-to-analogue (D/A) circuit, and input/output circuitry and device (I/O) and suitable Signal Regulation and buffer circuit.Each controller has one group of control algorithm, comprise be stored in ROM and be performed to resident program order and the standard of the corresponding function of each computer are provided.
The algorithm of engine control can be carried out in default circulation.The algorithm being stored in Nonvolatile memory devices is carried out by described central processing unit, and can operate to monitor from the input of detective device and utilize default standard to carry out to control and diagnostic routine to control described engine operation.Cycle period can be carried out at regular intervals, for example during motor continuous service every 3.125,6.25,12.5,25 and 100 milliseconds of execution.In addition, algorithm can be carried out in response to the appearance of event or interrupt requests.
The present invention discloses some preferred embodiment and improved form thereof.Oher improvements and changes can be proposed reading and understand on the basis of this specification.Therefore, it is to be noted, the present invention is not limited to implement the specific embodiments that optimal mode form of the present invention discloses, and on the contrary, the present invention includes all embodiments that fall into claims scope.
1. control the method for vehicle powertrain, this dynamical system comprises electro-mechanical transmission, this speed changer comprises without frictional engagement selectable one-way clutch, thereby this clutch and combustion engine mechanical operationally link and are applicable to optionally mechanical force being transferred to output block and torque-converters, and described method comprises:
Monitor the jointing state of described selectable one-way clutch;
The order of monitoring gear up;
Monitoring motor is to the speed of the axle of torque-converters;
Monitoring torque-converters is to the speed of the axle of speed changer;
When described monitoring detects described selectable one-way clutch joint and described gear up order, according to described motor, to speed and the described torque-converters of the axle of torque-converters, to the speed of the axle of speed changer, determine the relative rotation speed of described torque-converters;
According to the selectable one-way clutch state of described relative rotation speed diagnosis locking;
Moment of torsion according to the selectable one-way clutch status command of described locking from described motor increases; With
Order described selectable one-way clutch separated.
2. method as claimed in claim 1, wherein, order comprises from the moment of torsion increase of described motor:
Order increases the stride of demarcating from described Engine torque.
3. method as claimed in claim 1, wherein, order comprises from the moment of torsion increase of described motor:
Order strengthens the moment of torsion from described motor gradually.
4. method as claimed in claim 1, wherein, order comprises from the moment of torsion increase of described motor:
According to known road slope condition, predictability command torque increases.
5. method as claimed in claim 1, wherein, order comprises from the moment of torsion increase of described motor:
Order strengthens the moment of torsion from described motor gradually, until described relative rotation speed surpasses minimum relative rotation speed threshold value.
After the moment of torsion increase from described motor described in described order, more described relative rotation speed and minimum relative rotation speed threshold value; With
Wherein, separated with the described selectable one-way clutch of the described order of relatively startup of described minimum relative rotation speed threshold value according to described relative rotation speed.
7. method as claimed in claim 1, wherein, describedly according to described relative rotation speed, diagnose the selectable one-way clutch state of described locking to comprise:
If described torque-converters is greater than described motor to the speed of the axle of torque-converters to the speed of the axle of speed changer, diagnose the selectable one-way clutch state of described locking.
8. method as claimed in claim 1, wherein, describedly according to described relative rotation speed, diagnose the selectable one-way clutch state of described locking to comprise:
If described relative rotation speed shows to be applied to the selectable one-way clutch state that moment of torsion on described selectable one-way clutch may cause described locking, diagnose the selectable one-way clutch state of described locking.
9. control the method for vehicle powertrain, this dynamical system comprises electro-mechanical transmission, this speed changer comprises without frictional engagement selectable one-way clutch, thereby this clutch and combustion engine mechanical operationally link and are applicable to optionally mechanical force being transferred to output block and torque-converters, and described method comprises:
By engine braking event, handle described selectable one-way clutch;
The relative rotation speed of monitoring torque-converters;
Monitoring stops the order of described engine braking event;
When described monitoring detects the order of the described engine braking event of described termination, according to the selectable one-way clutch state of described relative rotation speed diagnosis locking;
Order described motor to rev up to the speed of removing the selectable one-way clutch state of described locking; With
10. method as claimed in claim 9, wherein, order described motor to rev up and comprise:
Engine speed is accelerated in order gradually, until described relative rotation speed surpasses minimum relative rotation speed threshold value.
11. control the device of vehicle powertrain, this dynamical system comprises electro-mechanical transmission, this speed changer comprises without frictional engagement selectable one-way clutch, thereby this clutch and combustion engine mechanical operationally link and be applicable to optionally mechanical force being transferred to output block, and described device comprises:
The sensor of monitoring torque converter pump rotating speed;
The sensor of monitoring torque converter turbine rotating speed;
Control system, is designed to:
Monitor the rotating speed of described torque converter pump;
Monitor the rotating speed of described torque converter turbine;
Monitoring transmission state, comprises the order of the selectable one-way clutch range state gear up from engaging;
According to the rotating speed of the rotating speed of described torque converter pump and described torque converter turbine, determine the selectable one-way clutch state of locking;
The speed of selectable one-way clutch state that is enough to overcome described locking of order motor; With
12. as the device of claim 11, and wherein, the speed of selectable one-way clutch state that is enough to overcome described locking that described control system is designed to motor described in order comprises:
Described control system is designed to order and accelerates gradually engine speed, until the rotating speed of described torque converter pump surpasses the minimum relative rotation speed threshold value of rotating speed of described torque converter turbine.
CN200980135209.6A 2008-09-09 2009-09-02 Engine power management for selectable one-way clutch or mechanical diode in automatic transmissions CN102149947B (en)
US12/206853 2008-09-09
US12/206,853 US8478498B2 (en) 2008-09-09 2008-09-09 Engine power management for a selectable one-way clutch or mechanical diode in automatic transmissions
US12/206,853 2008-09-09
PCT/US2009/055642 WO2010030536A2 (en) 2008-09-09 2009-09-02 Engine power management for a selectable one-way clutch or mechanical diode in automatic transmissions
CN102149947A CN102149947A (en) 2011-08-10
CN102149947B true CN102149947B (en) 2014-04-09
ID=41799951
CN200980135209.6A CN102149947B (en) 2008-09-09 2009-09-02 Engine power management for selectable one-way clutch or mechanical diode in automatic transmissions
US (1) US8478498B2 (en)
CN (1) CN102149947B (en)
DE (1) DE112009002180T5 (en)
WO (1) WO2010030536A2 (en)
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2008-09-09 US US12/206,853 patent/US8478498B2/en active Active
2009-09-02 DE DE200911002180 patent/DE112009002180T5/en active Pending
2009-09-02 WO PCT/US2009/055642 patent/WO2010030536A2/en active Application Filing
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DE112009002180T5 (en) 2011-07-21
WO2010030536A3 (en) 2010-06-03
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