CN102472339A - Clutch operation device - Google Patents

Abstract

A clutch operation device (1) is a device for operating a clutch device (9) configured in such a manner that a pressing force, which acts on a clutch disc, changes according to the amount of operation. The clutch operation device (1) is provided with a drive motor (2) which generates a drive force, a speed reduction mechanism (3), a master cylinder (4), a slave cylinder (5), a hydraulic circuit (6), and a control device (8). The speed reduction mechanism (3), the master cylinder (4), the slave cylinder (5), and the hydraulic circuit (6) transmit as a pressing force the drive force of the drive motor (2) to the clutch device (9) and convert the amount of drive by the drive motor (2) to an operational amount. The hydraulic circuit (6) and the control device (8) adjust the operational amount.

Description

Clutch operating device

Technical field

The present invention relates to a kind of clutch operating device that is used for the operated clutch device.

Background technique

In the existing manual transmission, be provided with clutch device between motor and the speed changer, and the speed change lever and the speed changer that are located at driver's seat are through linkage mechanism mechanical connections such as controlling rods.When carrying out speed change, cut off the transmission of power between motor and the speed changer by clutch device through disengage the clutch, and the operation speed change lever.Therefore, when requiring to carry out speed change continually, for the driver, a series of operation becomes big burden.

Therefore, in order to alleviate the relevant driver's of bar operation burden, existing a kind of clutch actuating mechanism that automatic disconnecting clutch device is set does not need disengage the clutch to carry out the automatic transmission of variable speed operation.

Patent documentation

Japanese Patent Laid is opened the 2005-48924 communique

Summary of the invention

As above-mentioned clutch for automatic transmission device, adopt the Normally closed type clutch device usually, but developed the automatic transmission that adopts the normally open clutch device in recent years.

When adopting the normally open clutch device, be under the OFF state, remove the binding of clutch device at the power supply of vehicle.When linking clutch device, pressing plate is pushed by slave cylinder through bar, and clutch disk is clamped between pressing plate and the flywheel.Its result, power is passed to the input shaft of speed changer through clutch disk.

But in this structure, when clutch disk appearance wearing and tearing, the position of pressing plate when the stroke of slave cylinder can't meet the state of wear of clutch disk, can't guarantee to link the required pressing force of clutch device to the flywheel side shifting when linking owing to clutch.

And because of there is error in the size of clutch disk or clutch cover etc., the position of the pressing plate when linking clutch is also different because of product.The same when wearing and tearing occurring with clutch disk, if coupling position is different, the thrust that can't guarantee to link required pressing force of clutch device or slave cylinder is greater than required thrust.

As stated, in the normally open clutch device, because size error or dimensional changes hinder the stability of clutch device performance.

The object of the present invention is to provide a kind of clutch operating device of stable clutch device performance.

The clutch operating device that the present invention relates to is to be used for the device of operated clutch device.Wherein, this clutch device is because of being changed in the pressing force of clutch disk by the operation amount different effects of clutch operating device operation.Clutch operating device comprises drive portion, transfer part, the adjustment part that produces driving force.Transfer part is used for driving force is passed to clutch device as pressing force, and converts the driven quantity in the drive portion to operation amount.The adjustment part is used for adjusting the operation amount of transfer part.

In this clutch operating device, when converting the driven quantity of drive portion to operation amount, through the operation amount in the adjustment part adjustment transfer part through transfer part.Therefore,,, the level of expectation can be the pressing force to clutch disk maintained, the increase of drive portion load can be prevented through adjustment part adjustment operation amount even occur size error or dimensional changes in the clutch device.

As stated, this clutch device can be stablized the performance of clutch device.

Description of drawings

Fig. 1 is the structural representation of clutch device 9 and clutch operating device 1;

Fig. 2 is the structural representation of drive motor 2 and reducing gear 3;

Fig. 3 is the reduction speed ratio schematic representation of toggle mechanism 39;

Fig. 4 is the structural representation of master cylinder 4, slave cylinder 5 and oil hydraulic circuit 6;

Fig. 5 is the schematic representation that concerns of stroke L and pressure P;

Fig. 6 is the schematic representation that concerns of stroke L and motor load M;

Fig. 7 is the flow chart of computing backlash;

Fig. 8 is the structural representation of master cylinder 104 and periphery thereof;

Fig. 9 is that (A) reaches (B) detailed structure view of regulating mechanism 115.

Embodiment

[the 1st embodiment]

< structure of clutch device >

As shown in Figure 1, clutch device 9 is for to be used to transmit from the example of motor (not shown) to the power of gearbox (not shown), and it is fixed on the flywheel 91 of motor.Clutch device 9 is so-called devices open in usual, not by the state of clutch operating device 1 (afterwards stating) operation the time, cuts off from the transmission of power of motor to gearbox.

As shown in Figure 1, clutch device 9 has clutch cover 93, pressing plate 92, clutch disk 94, pressing lever 96, engagement bearing 97.

Clutch cover 93 is fixed on the flywheel 91.Pressing plate 92 by clutch cover 93 can one rotation and can supporting with moving axially.Pressing plate 92 links to each other through band plate 93a, so that it can move to clutch disk 94 and opposition side relative to flywheel 91.

Clutch disk 94 is configured between flywheel 91 and the pressing plate 92, and clutch device 9 is clamped in when connecting between flywheel 91 and pressing plate 92 axial.Pressing lever 96 is circlewise a plate roughly, in the axial direction by clutch cover 93 elastically deformables supporting.The elastic force of pressing lever 96 is little, makes the required power of its resiliently deformable also less.The interior perimembranous of pressing lever 96 becomes can axially push through engaging gear 97.When clutch device 9 connected, engagement bearing 97 was axially pushed pressing plate 92 through pressing lever 96.Engagement bearing 97 is axially driven by clutch operating device 1.In this clutch device 9, the pressing force that acts on clutch disk 94 is changed according to the amount of movement (operation amount of clutch operating device 1) that meshes bearing 97 through pressing lever 96 and pressing plate 92.

And, be provided with the rotation speed sensor 98 that detects clutch device 9 rotational speeies.Rotation speed sensor 98 links to each other with the control gear 8 (afterwards stating) of clutch operating device 1.

< structure of clutch operating device >

Clutch operating device 1 is according to the power of operation signal transmission of exporting from gearbox ECU99 and cut-out clutch device.Clutch operating device 1 is applicable to a plurality of clutch device of different size.At this, be example with clutch device 9 as the operand of clutch operating device 1, clutch operating device 1 is described.

As shown in Figure 1, clutch operating device 1, it comprises drive motor 2 (example of drive portion), reducing gear 3 (example of reduction part), master cylinder 4, slave cylinder 5, oil hydraulic circuit 6, linkage 7, control gear 8.

Like Fig. 1 and shown in Figure 2, drive motor 2 is the required driving sources of engagement bearing 97 that drive clutch device 9, through reducing gear 3 to master cylinder 4 applied thrusts.Drive motor 2; For example be brushless electric machine, it has live axle 21, actuation gear 24, the encoder 22 that detects the angle of swing (example of driven quantity) of live axle 21 that is used for output drive strength, the load detection sensor 23 (example of detecting sensor) that detects motor torque.

Actuation gear 24 is fixed on the live axle 21, is meshed with the spiral gear 31 of reducing gear 3.Encoder 22 and load detection sensor 23 are electrically connected with control gear 8.Load detection sensor 23 detects the load of drive motor 2 according to the current value of drive motor 2.In addition, load detection sensor 23 also can be the sensor that utilizes resistance strain gauge etc.

Like Fig. 1 and shown in Figure 2, reducing gear 3 have with rotatablely moving of producing in the drive motor 2 convert to translatory movement pass to master cylinder 4 the 1st piston 42 function with, strengthen the function of the driving force that produces in the drive motor 2.Particularly, as shown in Figure 1, reducing gear 3 has spiral gear 31, toggle mechanism 39.

Spiral gear 31 is the gears that reduce actuation gear 24 rotational speeies, is meshed with actuation gear 24.Spiral gear 31, for example the tegmentum (not shown) is rotatably supporting.

Toggle mechanism 39 is so-called terminal reducing gears, and reduction speed ratio changes according to input driven quantity (more specifically, the angle of swing of the angle of swing of drive motor 2 or spiral gear 31).Particularly, as shown in Figure 3, when clutch device 9 when the power dissengaged positions forwards power delivery status to, the reduction speed ratio of toggle mechanism 39 becomes greatly gradually, reduction speed ratio increases suddenly among the travel range Lt endways.Also have, when clutch device 9 when the power dissengaged positions forwards power delivery status to, the reduction speed ratio of toggle mechanism 39 increases than becoming big gradually by certain.When clutch device 9 when the power dissengaged positions forwards power delivery status to, this increases than also becoming big gradually.Therefore, when power delivery status shifted, the action of clutch device 9 became more level and smooth to the state of clutch device 9 from the power dissengaged positions.

For example, as shown in Figure 3, when the reduction speed ratio of toggle mechanism 39 was as standard reduction speed ratio R0 during with the power cut state, the increase among the reduction speed ratio R can be used following formula (1) expression than E.

E＝R/R0 (1)

As shown in Figure 2, toggle mechanism 39 has the 1st connected element the 32, the 2nd connected element the 33, the 3rd connected element 34.The 1st end 32a of the 1st connected element 32 rotatably is connected on the peripheral part of spiral gear 31.The 2nd end 32b of the 1st connected element 32 rotatably links to each other with the 2nd connected element 33 and the 3rd connected element 34.

The 1st end 33a of the 2nd connected element 33 for example, is rotatably supporting through being fixed on pin 36 tegmentums that cover.The 2nd end 33b of the 2nd connected element 33 rotatably is connected on the 1st end 34a of the 3rd connected element 34.The 2nd end 34b of the 3rd connected element 34, the recess 42a of insertion master cylinder 4 the 1st piston 42.Under the state that the binding of clutch device 9 is disengaged, 34 one-tenth states of the 2nd connected element 33 and the 3rd connected element to the opposition side bending of spiral gear 31.Rotatably be connected with the 2nd end 32b of the 1st connected element 32 on the joint of the 2nd end 33b and the 1st end 34a.

For example, as shown in Figure 2, when spiral gear 31 is rotated towards the R2 direction, the joint of the 2nd connected element 33 and the 3rd connected element 34 is by 32 tensions of the 1st connected element.Its result, the 2nd connected element 33 and the 3rd connected element 34 stretch between pin 36 and the 1st piston 42, towards the thrust of right direction in the 1st piston 42.At this moment,, therefore, compare, can further suppress the load of drive motor 2 with the thrust that acts on the 1st piston 42 because the rotation express delivery of actuation gear 24 reduces because of spiral gear 31.

As shown in Figure 4, master cylinder 4 has the 1st cylinder 41, insert the 1st piston 42 in the 1st cylinder 41, be arranged on reserve tank 43, spring 47, sub-piston 45, pressing component 46 on the 1st cylinder 41.Forming 44, the 1 hydraulic chamber 44 of the 1st hydraulic chamber by the 1st cylinder 41 and the 1st piston 42 links to each other with reserve tank 43.The 1st hydraulic chamber 44 links to each other with oil hydraulic circuit 6.

Spring 47, in advance with compressed state configuration between the 1st piston 42 and pressing component 46.Spring 47 is pressed to the 3rd connected element 34 with the 1st piston 42.According to this formation, the 3rd connected element 34 and the 1st piston 42 one move.

Connect the stream 41b of the 1st hydraulic chamber 44 and reserve tank 43, closed by elongated sub-piston 45 usually, still, when the pressure of the 1st hydraulic chamber 44 is lower than the pressure of reserve tank 43, working oil can flow to the 1st hydraulic chamber 44 from reserve tank 43.Particularly, spring 47 with pressing component 46 by being pressed on the 1st cylinder 41.Between pressing component 46 and the sub-piston 45, for example be provided with the volute spring (not shown), volute spring with sub-piston 45 by the open circumferential portion that is pressed in stream 41b.According to this formation, when, the elastic force of the volute spring of the stream 41b that contends with acts on sub-piston 45, and sub-piston 45 moves relative to the 1st cylinder 41 to the left, and sub-piston 45 leaves from the open circumferential portion of stream 41b.Like this, realize safety check through sub-piston 45 and volute spring.

As shown in Figure 4, slave cylinder 5 has the 2nd cylinder 51, insert the 2nd piston 52, spring 57, the bar 59 of the 2nd cylinder 51.Form the 2nd hydraulic chamber 54 by the 2nd cylinder 51 and the 2nd piston 52, oil hydraulic circuit 6 and pressure meter 53 (example of detecting sensor) link to each other with the 2nd hydraulic chamber 54.Dispose spring 57 in the 2nd hydraulic chamber 54.Spring 57 through the 2nd piston 52 with bar 59 by the bar that is pressed in linkage 7 71 ends.Constitute according to this, the end one of the 2nd piston 52, bar 59 and bar 71 moves.

As shown in Figure 1, linkage 7 is that the thrust of slave cylinder 5 is passed to the mechanism of engagement bearing 97 with the lever ratio of regulation, and it has bar 71.Bar 71 is provided with pin 72, and to become to make bar 71 be that the center is rotated with pin 72.Owing to compare with the central authorities of bar 71, pin 72 is configured in more near engagement bearing 97 sides, though the stroke of slave cylinder 5 slows down through linkage 7 and is passed to engagement bearing 97, the thrust of slave cylinder 5 strengthens through linkage 7.

As shown in Figure 1, oil hydraulic circuit 6 comprises working connection 61, auxiliary oil circuit 63, changing valve 62 (example of changeover part).Working connection 61 connects reserve tank 43 (example of fuel tank) and changing valve 62.Auxiliary oil circuit 63 connects the 1st hydraulic chamber 44 of master cylinders 4, the 2nd hydraulic chamber 54 and the changing valve 62 of slave cylinder 5.Changing valve 62 is electromagnetic change-over valves open in usual, controlled device 8 controls.During state that electric current does not flow in volute, changing valve 62 connects working connection 61 and auxiliary oil circuits 63, and during state that electric current flows in volute, changing valve 62 cuts off working connections 61 and auxiliary oil circuits 63.Therefore, when the power supply of vehicle was the OFF state, the pressure of working connection 61 was opened to reserve tank 43,9 one-tenth power cut states of clutch device.

In addition, constitute the transfer part that the driving force of drive motor 2 is passed to clutch device 9 as pressing force by reducing gear 3, master cylinder 4, slave cylinder 5, oil hydraulic circuit 6 and linkage 7.And, constitute the adjustment part that the driven quantity (rotational speed of live axle 21) of drive motor 2 is converted to operation amount (stroke of slave cylinder 5) through transfer part by changing valve 62 and control gear 8.

< structure of control gear >

Control gear 8 is according to the output controlling and driving motor 2 and the changing valve 62 of encoder 22, load detection sensor 23 and pressure meter 53.Particularly, as shown in Figure 1, control gear 8 has the motor controling part 81 of controlling and driving motor 2, according to the Stroke Control portion 82 (example of adjustment control device) of the output control transformation valve 62 of load detection sensor 23 and pressure meter 53.

Motor controling part 81, for example, according to the state of vehicle, according to operation signal controlling and driving motor 2 from gearbox ECU99 (Fig. 1) output.When control gear 8 receives this operation signal, motor controling part 81 controlling and driving motors 2 make the live axle 21 of drive motor 2 only rotate set angle.Motor controling part 81 is through measuring the angle of swing that can detect live axle 21 from the pulse of encoder 22 outputs.Motor controling part 81, the output pulse through monitoring encoder 22 can stop drive motor 2 when live axle 21 only rotates set angle.Set angle is stored in the storage (not shown) that is arranged on the control gear 8 in advance.

And during from the ring off signal of gearbox ECU99 output clutch, control gear 8 controlling and driving motors 2 make the live axle 21 of drive motor 2 only rotate set angle to opposition side.Constitute according to this, the rotational position of live axle 21 can return to primary position.

The stroke (displacement distance of the 2nd piston 52, the example of operation amount) of Stroke Control portion 82 adjustment slave cylinders 5 is not so that the pressing force of pressing plate 92 can produce big variation because of size error or dimensional changes.Particularly, reasonable stroke (example of reasonable operation amount) calculates according to the testing result of pressure meter 53 and load detection sensor 23 in Stroke Control portion 82.Rationally stroke means that the stroke as slave cylinder 5 is rational stroke.

Rationally the difference of the range Lmax of stroke and slave cylinder 5 is referred to as backlash Δ L.As after state, for the stroke with slave cylinder 5 is adjusted into reasonable stroke, Stroke Control portion 82 control transformation valves 62, only backlash Δ L does not make slave cylinder 5 work in the work of master cylinder 4.For example, owing to be through changing valve 62 working connection 61 to be connected on the reserve tank 43, working oil flows to reserve tank 43 from working connection 61, and therefore the translatory movement of the 1st piston 42 can not be passed to the 2nd piston 52.When working connection 61 is cut off from reserve tank 43 by changing valve 62, the translatory movement of the 1st piston 42 is passed to the 2nd piston 52 through the working oil of working connection 61.That is,, the length of backlash Δ L can be adjusted, reasonable stroke can be the stroke of slave cylinder 5 be adjusted into through the switching opportunity of adjustment changing valve 62.That is, in the rotating range (whole driving scope) via the live axle 21 of drive motor 2, only there is partial rotation angle (driven quantity) to convert the stroke (operation amount) of slave cylinder 5 to through master cylinder 4, slave cylinder 5 and oil hydraulic circuit 6.

< summary of adjustment stroke >

Usually, in clutch device, the wearing and tearing etc. that can produce clutch disk are degenerated or the size error of different product for many years.For example, the clutch device 9 represented like Fig. 1, when clutch disk 94 wearing and tearing, can be near flywheel 91 sides when clutch links with respect to pressing plate 92 positions of flywheel 91.

But because the stroke of slave cylinder 5 is fixed usually, therefore the position of pressing plate 92 is near flywheel 91 sides when transmission of power, and then the stroke of slave cylinder 5 can be not enough, and pressing force is difficult to be passed to pressing plate 92 from pressing lever 96.Its result, because of the state of wear of clutch disk 94, the pressing force of pressing plate 92 can reduce.

Therefore, in this clutch operating device 1, the stroke of adjusting slave cylinder 5 automatically keeps reasonable levels to guarantee pressing force.Here, the adjusting method of brief description stroke.

In the stage of making clutch operating device 1, the stroke of slave cylinder 5 or position are adjusted to and make it can guarantee required pressing force under the maximum state of the stroke of the wear extent maximum of clutch disk and slave cylinder 5.Next, during real-world operation, adjust the stroke of slave cylinder 5 according to the state of wear of clutch disk.Adjustment is during stroke, goes out the reasonable stroke of slave cylinder 5 according to being stored in data computation in the control gear 8 in advance, and according to the reasonable stroke that calculates by control gear 8 switch transition valves 62.

As stated, can adjust the stroke of slave cylinder 5 automatically.

< calculate stroke and use data >

Here, the data of the calculating stroke being used describe.As calculating the data that stroke is used, can consider the data that Fig. 5 and Fig. 6 are represented.

Data for example shown in Figure 5, the relation of the pressure P in the wear extent of expression clutch disk 94, the stroke L of slave cylinder 5 and the 2nd hydraulic chamber 54 is tried to achieve through design or test in advance.The represented line A1～A4 of Fig. 5 is through designing or test the approximate curve of the data of trying to achieve in advance, being stored in advance in the storage of control gear 8 with the corresponding approximate expression of line A1～A4.

The pressure P of slave cylinder 5 the 2nd hydraulic chamber 54 as the longitudinal axis; The stroke L of the 2nd cylinder 51 is during as transverse axis; Use line A4 to represent the relation of the wear extent of clutch disk 94, represent that with line A1 clutch disk 94 does not have the A-stage downforce P of wearing and tearing and the relation of stroke L fully as pressure P under the maximum rating and stroke L.And, change the wear extent compute stroke L of clutch disk 94 and the relation of pressure P, for example, the pass of stroke L and pressure P is tied to form line A2 and A3.

In other words, if know stroke L and pressure P, then can roughly grasp the wear extent of clutch disk according to the represented data of Fig. 5.And, from the wear extent and the goal pressure of the clutch disk that calculates, can calculate the reasonable stroke of slave cylinder 5.The represented storage of Fig. 5 is in the storage of control gear 8.

Also have, the relation of the stroke L of the wear extent of data representation clutch disk 94 shown in Figure 6, slave cylinder 5 and the motor load M of drive motor 2 is tried to achieve through design or test in advance.The represented line A11～A14 of Fig. 6 is through designing or test the approximate curve of the data of trying to achieve in advance.The motor load M of drive motor 2 as the longitudinal axis; The stroke L of the 2nd cylinder 51 is during as transverse axis; The relation of motor load M and stroke L representes that with line A11 clutch disk 94 does not have the A-stage down stroke L of wearing and tearing and the relation of motor load M fully when using wear extent that line A14 representes clutch disk 94 as the state of maximum.And the wear extent that changes clutch disk 94 is calculated the relation of stroke L and motor load M, and for example, the pass of stroke L and motor load M is tied to form line A12 and A13.

In other words, if know stroke L and motor load M, then can roughly grasp the wear extent of clutch disk according to the represented data of Fig. 6.And, from the wear extent and the target load of the clutch disk that calculates, can calculate the reasonable stroke of slave cylinder 5.The represented storage of Fig. 6 is in the storage of control gear 8.

< initial setting of stroke >

Consider the wearing and tearing of clutch disk, utilize adjustment with the position of the 2nd piston 52 of clutch device adjustment slave cylinder 5 or the length adjusting mechanism (not shown) of bar 59 in the fabrication stage.Particularly, the position of the 2nd piston 52 of adjustment slave cylinder 5 is even so that clutch disk reaches maximum state of wear, also can maintain reasonable levels with the pressing force of pressing plate.Adjustment is provided with the clutch disk (clutch disk that wear extent is maximum) of wearing and tearing fully with in the clutch device.

During adjustment, master cylinder 4 is driven by drive motor 2, is pushed by slave cylinder 5 via linkage 7 pressing plates 92.Be sandwiched between pressing plate 92 and the flywheel with clutch disk when adjusting, the pressure P in the 2nd hydraulic chamber 54 then rise.At this moment; As shown in Figure 5; Stroke (or adjustment is with respect to position of the slave cylinder 5 of linkage 7) through adjustment slave cylinder 5 makes pressure P reach standard pressure P0, and when the stroke L that can guarantee slave cylinder 5 is range Lmax (, when the wear extent of clutch disk is maximum) and required pressing force.

But, as shown in Figure 5, during pressure P during more identical stroke L, be higher than the pressure that calculates from the maximum line A4 of the wear extent of clutch disk 94 from the pressure that calculates with the corresponding line A1 of A-stage.When the pressure P increase, pressing force also increases, its result, and the motor load M of drive motor 2 surpasses required size.

Therefore, in this clutch operating device 1, adjust the stroke of slave cylinder 5 automatically, so that the wearing and tearing of pressing force and clutch disk are irrelevant and almost fixed.

< computational methods of stroke >

Here, the computational methods to stroke describe.

When adjusting the stroke of slave cylinder 5 automatically, utilize Fig. 5 and data shown in Figure 6, by the state of wear corresponding reasonable stroke of control gear 8 calculating with clutch disk.

Particularly, during real-world operation, through the pressure of pressure meter 53 detection slave cylinders 5, the output of pressure meter 53 is stored in the storage of control gear 8 as detected pressures Pd.As shown in Figure 5, according to present stroke Ls and the approximate expression of line A1～A4, Stroke Control portion 82 calculates four pressure P c1～Pc4.Four pressure P c1～Pc4 that Stroke Control portion 82 relatively calculates and detected pressures Pd, from line A1～A4, select with near the corresponding line of the pressure of detected pressures Pd.

For example, during selection wire A2, Stroke Control portion 82 calculates stroke Lp according to approximate expression and the standard pressure P0 of line A2.

And through the motor load M of load detection sensor 23 detection drive motor 2, the output of load detection sensor 23 is stored in the storage of control gear 8 as detection load Md.As shown in Figure 6, Stroke Control portion 82 calculates four motor load Mc1～Mc4 according to present stroke Ls and the approximate expression of line A11～A14.Four motor load Mc1～Mc4 that Stroke Control portion 82 relatively calculates and detection load Md, from line A11～A14 select with near the corresponding line of motor load M of detection load Md.

For example, during selection wire A12, Stroke Control portion 82 calculates stroke Lm according to approximate expression and the gauge load M0 of line A12.The stroke Lm that calculates is stored in the storage of control gear 8 temporarily.

Also have, reasonable stroke calculates according to stroke Lp and Lm in Stroke Control portion 82.Particularly, when the absolute value of the difference of stroke Lp and Lm was lower than the value δ L of regulation, Stroke Control portion 82 was set at new stroke Ls with stroke Lp.Compare with motor load M and to pay the utmost attention to pressure P and be, because it is as the index of pressing force, in the bang path of driving force, more more accurate than motor load M near the pressure P of the slave cylinder 5 of clutch device 9.

On the other hand, when the absolute value of the difference of stroke Lp and Lm during greater than the value δ L of regulation, Stroke Control portion 82 is stroke Lp and Lm relatively, and are new stroke Ls with long travel settings.Selecting long stroke here, is to guarantee big pressing force more easily because of comparing with short stroke.

Stroke Control portion 82 deducts new setting stroke Ls from stroke Lmax and calculates backlash Δ L.According to this backlash Δ L, by the work moment of Stroke Control portion 82 adjustment changing valves 62.Particularly, the relation between the angle of swing in backlash Δ L and the drive motor 2 is stored in the Stroke Control portion 82 in advance, and angle of swing is calculated from the backlash Δ L and the relation that calculate by Stroke Control portion 82.The angle of swing that utilization calculates, the switching of adjustment changing valve 62 constantly.

As above state brightly, calculate the reasonable stroke of the slave cylinder 5 that is fit to the clutch disk state of wear.

< technical meaning of backlash >

Here, the technical meaning to backlash remarks additionally.As shown in Figure 5, during the represented A-stage of line A1, if the 2nd piston 52 is only driven stroke Ls, the pressure P in the 2nd hydraulic chamber 54 then reach standard pressure P0.Therefore,, and make the stroke L of the 2nd piston 52 be made as stroke Ls, like guaranteeing pressing force if merely reduce the driven quantity of drive motor 2.

But; Owing to adopted near the terminal reducing gear that (the travel range Lt that Fig. 3 is represented) reduction speed ratio increases suddenly the end of stroke in the reducing gear 3; Therefore; Driven quantity in having reduced drive motor 2, when can't effectively utilize the big travel range Lt of reduction speed ratio, the output that is necessary to increase drive motor 2 in order to ensure pressing force.

Therefore; Only guarantee to be equivalent to the driven quantity of range Lmax drive motor 2 partly; And in the little travel range of reduction speed ratio (scope outside the travel range Lt), set backlash Δ L through using changing valve 62; Can maximally utilise the big travel range of reduction speed ratio, need not with the load of drive motor 2 bring up to required more than, and can guarantee pressing force.

< action of clutch operating device >

Action to above-mentioned clutch operating device 1 describes.

As shown in Figure 1, when transferring power, pressing lever 96 is pushed to flywheel 91 sides by clutch operating device 1, and clutch disk 94 is clamped between flywheel 91 and the pressing plate 92.At this moment, close changing valve 62 through control gear 8, the driving force of drive motor 2 is passed to pressing plate 92 via reducing gear 3, master cylinder 4, slave cylinder 5 and linkage 7.

Under this state, when detecting operation signal from gearbox ECU99, motor controling part 81 controlling and driving motors 2 make live axle 21 towards removing the direction rotation that clutch device 9 connects.

When being rotated towards the R1 direction by drive motor 2, spiral gear 31 drives, 32 risings of the 1st connected element, and the driving force of transmitting to master cylinder 4 from reducing gear 3 is able to remove.When having removed driving force, it is mobile to the left because of the elastic force of spring 57 to be accompanied by the 1st piston 42, and the 2nd piston 52 also moves to the left.When the 2nd piston 52 moves to the left, be pressed bar 96 and band plate 93a of engagement bearing 97 pushes back to the right side, and pressing plate 92 moves to the opposition side of flywheel 91.Its result has removed clutch disk 94 by the state of pressing plate 92 and flywheel 91 clampings, cuts off from the transmission of power of motor to gearbox.

According to the output pulse of encoder 22, by the driven quantity (angle of swing of live axle 21) of motor controling part 81 adjustment drive motor 2.Begin to drive through drive motor 2, the output pulse by motor controling part 81 begins to measure encoder 22 when the umber of pulse of measuring reaches the umber of pulse that is equivalent to range Lmax, stops drive motor 2 through motor controling part 81.When drive motor 2 stops, pressing plate 92 stops in the position that cuts off power, accomplishes the releasing action of clutch device 9.Be accompanied by stopping of drive motor 2, changing valve 62 is switched to opening state by Stroke Control portion 82 from closed condition.

When changing through gearbox ECU99, output links the operation signal of clutch device 1, and motor controling part 81 is through drive motor 2 drive speed reducer structures 3, and wherein this driven quantity only is equivalent to the driven quantity of range Lmax.At this moment, spiral gear 31 is driven towards the rotation of R2 direction by drive motor 2, and therefore the 1st connected element 32 downward laybacks are stretched, and the 3rd connected element 34 is pushed the 1st piston 42 of master cylinder 4 gradually to the right.Its result, though the 1st piston 42 moves to the right, because changing valve 62 is in opening state, therefore, the working oil that flows out from the 1st hydraulic chamber 44 can not flow to the 2nd hydraulic chamber 54, flows into reserve tank 43 via changing valve 62 and auxiliary oil circuit 63.Therefore, changing valve 62 is held open during the state, and the 2nd piston 52 keeps halted state.

On the other hand, when begin to drive through drive motor 2, by the output pulse of drive control part 81 metering encoders 22.The umber of pulse of metering reaches till the umber of pulse that is equivalent to backlash Δ L, and changing valve 62 is held open state.When, the umber of pulse of metering reaches the umber of pulse that is equivalent to backlash Δ L, transmits control signal to Stroke Control portion 82 from motor controling part 81, and changing valve 62 is switched to closed condition by Stroke Control portion 82 from opening state.Its result is accompanied by moving from the working oil of the 1st hydraulic chamber 44 outflows of the 1st piston 42, can not escape to flow into the 2nd hydraulic chamber 54 to reserve tank 43, and the 2nd piston 52 beginnings of slave cylinder 5 are moved to the right.Mobile to the right when the 2nd piston 52, the bar 71 of linkage 7 is that the center is rotated with pin 72, and engagement bearing 97 is pushed to flywheel 91 sides by bar 71.Its result is pressed to the flywheel side through pressing lever 96 pressing plates 92 by engagement bearings 97, and when the stroke of slave cylinder 5 reaches range Lmax, 94 of clutch disks are clamped between pressing plate 92 and the flywheel 91.

As stated; According to Fig. 5 and data shown in Figure 6; Calculate the reasonable stroke that is fit to the clutch disk state of wear through Stroke Control portion 82, and clutch operating device 1 carries out work according to the stroke that calculates, therefore; Pressure P can be kept standard pressure P0 or near the value it, and pressing force is kept reasonable levels.

When clutch disk 94 is clamped between flywheel 91 and the pressing plate 92, power through clutch device 9 from motor to the gearbox transmission.

As stated, carry out the operation of clutch device 9 through clutch operating device 1.

< calculating the action of stroke >

In this clutch operating device 1; (for example calculate under the rated condition through Stroke Control portion 82; 1 day 1 time, vehicle stops the back, motor stops the back) and size error or the corresponding reasonable stroke of dimensional changes, make setting stroke Ls and backlash Δ L under rated condition, be able to upgrade.

For example, as shown in Figure 7, when calculating reasonable stroke, confirm through Stroke Control portion 82 whether clutch device 9 are in connecting state (S1).The state of clutch device 9 is according to from the operation signal of gearbox ECU99 output or the output of encoder 22, is judged by Stroke Control portion 82.The best is that the rotational speed V of clutch device 9 calculates stroke when low.Reason is, when the rotational speed V of clutch device 9 is high, can increase the influence of vibration or the hydro pulse etc. of each parts.Therefore, if clutch device 9 is a connecting state, through rotational speed V and the predefined reference value V0 (S2) of Stroke Control portion 82 comparisons by rotation speed sensor 98 detected clutch device 9.

When rotational speed V was higher than reference value V0, repeating step S1～S2 was through the connecting state and the rotational speed V of Stroke Control portion 82 supervision clutch device 9.When rotational speed V is lower than reference value V0,, calculate stroke through Stroke Control portion 82 according to above-mentioned stroke computational methods.

Particularly, in order to grasp the pressing force that acts on clutch disk 94,, and pass through the motor load M (S3, S4) that load detection sensor 23 detects drive motor 2 through pressure meter 53 detected pressures P.The testing result of pressure meter 53 and load detection sensor 23 is sent to control gear 8, and is stored in the storage (not shown) of control gear 8.

Next, according to data shown in Figure 5, detected pressures Pd and present setting stroke Ls, calculate the reasonable stroke as standard detected pressures Pd through Stroke Control portion 82.Particularly, utilize detected pressures Pd and present setting stroke Ls, from data shown in Figure 5, select calculating formula (S5).For example, as shown in Figure 5, utilize the approximate expression of line A1～A4, calculate and the corresponding pressure P c1 of stroke Ls～Pc4 through Stroke Control portion 82.The pressure P c1 that relatively calculates～Pc4 and detected pressures Pd through Stroke Control portion 82, and pass through Stroke Control portion 82 from line A1～A4 selection and near the corresponding line of the pressure of detected pressures Pd.Approximate expression and detected pressures Pd according to selecteed line calculate stroke Lp, and the stroke Lp that calculates is stored in (S5) in the storage.

Also have,, calculate the reasonable stroke as standard detection load Md through Stroke Control portion 82 according to data shown in Figure 6, detection load Md and present setting stroke Ls.Particularly, utilize detection load Md and present setting stroke Ls, from data shown in Figure 6, select approximate expression (S6).For example, as shown in Figure 6, utilize and the corresponding approximate expression of line A11～A14, calculate and the corresponding load of stroke Ls Mc1～Mc4 through Stroke Control portion 82.Load Mc1～the Mc4 and the detection load Md that relatively calculate through Stroke Control portion 82, and pass through Stroke Control portion 82 from line A11～A14 selection and near the corresponding line of the load of detection load Md.Approximate expression and detection load Md according to selecteed line calculate stroke Lm, and the stroke Lm that calculates is stored in (S6) in the storage.

Stroke Lp and Lm according to calculating calculate reasonable stroke by Stroke Control portion 82.Particularly; When the absolute value of the difference of stroke Lp and Lm is lower than the value δ L of regulation; Owing to be correct as the index of pressing force in the bang path of driving force near the pressure P of the slave cylinder 5 of clutch device 9; Therefore stroke Lp is as rationally stroke is by 82 selections of Stroke Control portion, and stroke Lp is set to new stroke Ls (S7, S8).

On the other hand, when the absolute value of the difference of stroke Lp and Lm during greater than the value δ L of regulation, through Stroke Control portion 82 relatively stroke Lp and Lm, long stroke is selected as reasonable stroke, and selecteed stroke is set to new stroke Ls (S7～S10).

< characteristics of clutch operating device >

As stated; Because stroke Ls regularly calculates and renewal according to the state of wear of clutch disk; Therefore can change adjustment stroke L automatically according to the wearing and tearing equidimension of size error or clutch disk 94, its result can maintain reasonable levels with the pressing force that acts on clutch disk 94.That is, in this clutch operating device 1, can stablize the performance of clutch device 9.

[the 2nd embodiment]

In the clutch operating device that relates to the 1st embodiment 1,, but also mechanically adjust backlash through electronic control adjustment backlash.

Particularly, as shown in Figure 8, substitute changing valve 62 and Stroke Control portion 82, the regulating mechanism 115 as adjustment part performance effect is set on master cylinder 104.

Like Fig. 9 (A) and (B), regulating mechanism 115 has main part 116, inserts movable part 117, adjusting screw 118, the stop pin 119 of main part 116.

Main part 116 is installed in the front portion of master cylinder 104, connects with pressing component 46 in the axial direction.Pressing component 46 is pressed 47 to main part 116 by spring.Movable part 117 is configured to can move relative to main part 116, is attached on the main part 116 through adjusting screw 118.The rotation of movable part 117 relative main parts 116 is fixed on stop pin 119 restrictions on the main part 116.

Movable part 117 has tapped hole 117a, and adjusting screw 118 screws among the tapped hole 117a.Adjusting screw 118 be installed into make its relative to main part 116 can be rotated and axially one move.Like Fig. 9 (A) and (B), be rotated through making adjusting screw 118 relative main parts 116, can adjust the axial position of movable part 117 relative main parts 116.

Here, " axially " mean the movement direction of the 1st piston 42 relative the 1st cylinders 41.

Be formed with oil circuit 117b on the movable part 117.Oil circuit 117b connects reserve tank 43 and the 1st hydraulic chamber 44, can open and close through sub-piston 45.When the axial position with respect to the movable part 117 of main part 116 changes, the gap size D between sub-piston 45 and the movable part 117 also changes.This gap size is equivalent to above-mentioned backlash, through the position of adjustment with respect to the movable part 117 of main part 116, can adjust backlash Δ L.The adjustment of backlash Δ L is to utilize regulating mechanism 115 to carry out when for example being launch.And, during time-based maintenance, also can be through regulating mechanism 115 adjustment backlash Δ L.

This structure, the variation of the pressing force that can suppress to cause because of size error or dimensional changes can be stablized the performance of clutch device 9.

[other embodiments]

Concrete structure of the present invention not only is confined to aforesaid embodiment, in the scope that does not break away from spirit of the present invention, can carry out various changes and modification.

(A)

In reducing gear 3, adopted toggle mechanism 39, but so long as near the terminal reducing gear that reduction speed ratio increases the end of stroke also can be other mechanisms.As terminal reducing gear, except that toggle mechanism, also can be cam mechanism, crank mechanism, universal joint round pin application gear mechanism, variable gears rackwork, band mechanism and elliptic gear mechanism.

(B)

In the 1st embodiment, detected pressures P and motor load M both, and calculate reasonable stroke and backlash Δ L, but also can only utilize one among pressure P and the motor load M to calculate reasonable stroke and backlash Δ L according to both.

(C)

As the detection mode of motor load M, adopted and detected the mode of current value, but also can be to use other modes such as mode of resistance strain gauge.

(D)

In the 2nd embodiment, adopted mode, but also can be that main part 116 and movable part 117 are the parts of one through adjusting screw 118 adjustment movable parts 117 positions, exchange the structure that these parts are adjusted gap size D.

(E)

And Fig. 3 representes the reduction speed ratio of toggle mechanism 39, but the reduction speed ratio of reducing gear 3 not only is confined to the represented characteristic of Fig. 3.For example, also can be reducing gear 3, promptly, increase in certain proportion from power dissengaged positions to power delivery status reduction speed ratio with following characteristics.

(F)

Also have, move output and input position structure mutually, be not limited only to above-mentioned oil pressure mode.As this kind structure, for example can consider magnetic clutch and friction clutch.

(G)

The means of detected pressures P not only are confined to pressure meter 53, for example, also can be pressure switches.

(H)

Though push engagement bearing 97 through linkage 7 by slave cylinder 5, also can omit linkage 7.

Utilizability in the industry

Owing to aforesaid clutch operating device, can stablize the performance of clutch device, the present invention is applicable to the clutch operating device field.

(symbol description)

1 clutch operating device

2 drive motor (example of drive portion)

22 encoders (example of detecting sensor)

23 load detection sensors (example of detecting sensor)

3 reducing gears (example of reduction part)

39 toggle mechanisms

4 master cylinders

41 cylinders

42 pistons

43 reserve tanks

44 hydraulic chamber

45 sub-pistons

46 pressing components

47 springs

5 slave cylinders

51 cylinders

52 pistons

53 pressure meters (example of detecting sensor)

54 hydraulic chamber

6 oil hydraulic circuits

61 working connections

62 changing valves (example of changeover part)

63 auxiliary oil circuits

7 linkages

8 control gear

81 motor controling parts

82 Stroke Control portions (example of adjustment control device)

9 clutch device

99 gearbox ECU (example of operation amount supporting portion)

115 regulating mechanisms (example of adjustment component)

116 main parts

117 movable parts

118 steel turn-buckles

Claims (9)

1. clutch operating device that is used for the operated clutch device, the pressing force that acts on clutch disk corresponding to the said clutch device of the operation amount of said clutch operating device changes, and said clutch operating device comprises:

Drive portion is used to produce driving force;

Transfer part is passed to said clutch device with said driving force as said pressing force, and converts the driven quantity of said drive portion into said operation amount;

The said operation amount in the said transfer part is adjusted in the adjustment part.

2. clutch operating device according to claim 1 is characterized in that:

Said transfer part has reduction part, and this reduction part strengthens said driving force through the said driven quantity that reduces said drive portion.

3. clutch operating device according to claim 2 is characterized in that:

When said clutch device during from dissengaged positions steering power transmit mode, it is big that the reduction speed ratio of said reduction part becomes gradually.

4. according to any described clutch operating device of claim 1～3, it is characterized in that:

Said adjustment part is through the said operation amount of adjustment, makes that only some converts said operation amount in said transfer part in the whole driving scope of the driven quantity that is produced by said drive portion.

5. according to any described clutch operating device of claim 1～4, it is characterized in that: also comprise:

Detecting sensor is used to detect said pressing force;

The adjustment control device is controlled said adjustment part according to the testing result of said detecting sensor.

6. clutch operating device according to claim 5 is characterized in that:

Said adjustment control device has calculating part, and this calculating part calculates the reasonable operation amount of said clutch device according to the testing result of said detecting sensor.

7. according to any described clutch operating device of claim 1～6, it is characterized in that:

Said transfer part comprises:

Master cylinder, the 1st hydraulic chamber that it has the 1st cylinder, insert in said the 1st cylinder and be received in the 1st piston of the said driving force that said drive portion produces, formed by said the 1st cylinder and said the 1st piston;

Slave cylinder, the 2nd hydraulic chamber that it has the 2nd cylinder, insert in said the 2nd cylinder and said driving force is put on the 2nd piston of said clutch device, formed by said the 2nd cylinder and said the 2nd piston as said pressing force;

Working connection connects said the 1st hydraulic chamber and said the 2nd hydraulic chamber.

8. clutch operating device according to claim 7 is characterized in that:

Said adjustment part has fuel tank and switching part, and wherein said fuel tank is connected on the said working connection, at least one and being connected and cut-out of said fuel tank that said switching part is used for switching said the 1st hydraulic chamber, said the 2nd hydraulic chamber and said working connection.

9. clutch operating device according to claim 7 is characterized in that:

Said adjustment part, have the fuel tank that is connected on the said working connection, be arranged on said the 1st cylinder and connect the bypass oil circuit of said fuel tank and said the 1st hydraulic chamber, through switching sub-piston that said bypass oil circuit opens and closes with said the 1st piston interlock, switching said bypass oil circuit through the sub-piston adjustment and open and close adjustment component constantly.

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