KR101284332B1 - Automated manual transmission for vehicle - Google Patents

Abstract

PURPOSE: An automatic manual transmission for an automobile is provided to allow a driver to shift gears in a smooth and stable manner by providing additional drive power to the driving wheels of an automobile when a gear transmission takes place. CONSTITUTION: A transmission unit (1) includes multiple transmission devices having different gear ratios especially between an input shaft and an output shaft. A closed drive delivering device (5) is installed between a drive supply device (3) that supplies drive to the input shaft of the transmission unit and the output shaft in order to deliver the drive from the drive supply device to the output shaft at a closed gear ratio. The closed drive delivering device includes a drive disk (7), a driven disk (9), and a full toroidal. The drive disk is connected to a spin shaft of the drive supply device. While corresponding to and sharing the same center with the drive disk, the driven disk spins and is connected to the output shaft. The full toroidal includes a roller (11) installed in a way in which the drive is delivered between the drive disk and the driven disk at a closed gear ratio by contacting both the cylindrical surfaces of the two disks at the same time, thereby adjusting the inclination of the spin shafts for the two disks. [Reference numerals] (3) Engine

Description

[0001] AUTOMATED MANUAL TRANSMISSION FOR VEHICLE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an automatic manual transmission of a vehicle, and more particularly, to a configuration of an automatic manual transmission in which a pulling down phenomenon such as pulling during shifting is improved.

The automatic manual transmission is automatically shifted by the actuator during the operation of the vehicle, thereby providing convenience similar to that of an automatic transmission, and contributing to improvement of the fuel efficiency of the vehicle with superior power transmission efficiency than that of the automatic transmission.

However, in the case of an automatic manual transmission that is based on a synchromesh transmission mechanism, there is inevitably a moment when the power is disconnected even during a shift process that is automatically performed by the actuator. Thus, There is a problem in that a phenomenon of lowering of the transmission feeling that is pulled backward is accompanied.

The matters described as the background of the above-described invention are merely for the purpose of enhancing the understanding of the background of the present invention and are accepted as acknowledging that they correspond to the prior art already known to those skilled in the art. I will not.

Advanced Car Chassis, Golden Bell Publishing Co.,

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the above problems, and it is an object of the present invention to provide a manual transmission, which uses a mechanism of a manual transmission which is inevitably required to temporarily shut off power for a shift, And an object of the present invention is to provide an automatic manual transmission of a vehicle which is capable of preventing a decrease in torque that occurs during shifting to prevent a decrease in transmission feeling to thereby provide a smooth and stable shifting feeling, .

In order to achieve the above object, the automatic manual transmission of the vehicle of the present invention includes:

A transmission portion having a plurality of transmission mechanisms for implementing different gear ratios between the input shaft and the output shaft;

A stepless transmission mechanism provided between the power providing device for providing power to the input shaft of the transmission portion and the output shaft, the stepless transmission mechanism configured to transfer power from the power providing device to the output shaft at an infinite speed ratio;

The stepless delivery mechanism

A drive disk connected to the rotating shaft of the power supply device;

A driven disk spaced apart to correspond to the drive disk and rotatably installed in a concentric shaft and connected to the output shaft;

Full toroidal (FULL TOROIDAL) comprising a roller installed in contact with the drive disk and the driven disk at the same time by varying the inclination of the rotating shaft, the power transmission is performed at an infinite speed ratio between the drive disk and the driven disk

.

The present invention is capable of transmitting a separate power to a drive wheel during shifting while using a mechanism of a manual transmission that must inevitably be interrupted and connected to a conventional shift for a shift, Thus, the shift feeling is prevented from being lowered to form a smooth and stable shift feeling, thereby improving the commerciality of the vehicle.

1 is a configuration diagram of an automatic manual transmission of a vehicle according to the present invention,
2 is a view illustrating the continuously variable principle of the roller, the drive disk and the driven disk of FIG.
3 is a view for explaining the power transmission relationship when starting the engine in the configuration of FIG.
4 is a view for explaining the power transmission relationship during the first stage driving in the configuration diagram of FIG.
FIG. 5 is a view for explaining a power transmission relationship during shifting from one gear to two gears in the configuration diagram of FIG. 1;
FIG. 6 is a view for explaining a power transmission relationship during two-stage driving in the configuration diagram of FIG. 1;
FIG. 7 is a view for explaining a power transmission relationship during driving of the R stage in the configuration diagram of FIG. 1.

Referring to FIG. 1, an embodiment of the present invention includes a transmission unit 1 having a plurality of transmission mechanisms for implementing different gear ratios between an input shaft INPUT and an output shaft OUTPUT; It is installed between the power supply device (3) and the output shaft (OUTPUT) for providing power to the input shaft (INPUT) of the transmission unit 1, the power from the power supply device (3) to the output shaft (OUTPUT) It is configured to include a continuously transmitting mechanism (5) configured to transmit at an infinite speed ratio.

That is, the continuously variable transmission mechanism 5 receives power from the power supply device 3 in parallel with respect to the transmission 1 having the conventional manual transmission shifting mechanism, and shifts the transmission 1. By bypassing the input shaft (INPUT) at the time to continue to provide power to the output shaft (OUTPUT), it is possible to prevent the torque degradation due to the power disconnection during the conventional shift.

In the present invention, the stepless transmission mechanism (5) includes a drive disk (7) connected to the rotating shaft of the power supply device (3); A driven disk 9 spaced apart to correspond to the drive disk 7 and rotatably installed in a concentric axis, and connected to the output shaft OUTPUT; By contacting the grooves of the drive disk 7 and the driven disk 9 at the same time to vary the inclination of the rotating shaft, the drive disk 7 and the driven disk 9 is installed so that power transmission is performed at an infinite speed ratio between the drive disk 7 and the driven disk 9 It consists of a full toroidal (FULL TOROIDAL) comprising a roller (11).

That is, by changing the inclination of the rotation axis (A) of the roller 11 which is in contact with the drive disk 7 and the driven disk 9 at the same time, the transmission of the continuously variable transmission is made, as illustrated in FIG. As described above, the rotational force of the drive disk 7 drives the roller 11 with the radius R1 from the contact point with the roller 11 to the rotational axis of the drive disk 7 as the moment arm, and the driving force is The driven disk 9 is driven with the radius R2 from the rotational axis of the driven disk 9 to the contact point of the driven disk 9 and the roller 11 as the moment arm, and the R1 and R2 are the rollers 11. As the inclination of the rotation axis (A) is changed, it is possible to realize continuously continuous speed ratio while continuously changing.

In the present invention, the pull toroidal drive disk 7 and the driven disk 9 is arranged so that the grooves into which the roller 11 is inserted are opposed to each other, the rotation axis of the roller 11 is the drive disk ( 7) and the inclined state with respect to the rotating shaft of the driven disk 9 is installed, the rotating shaft (A) of the roller 11 is the roller 11, the drive disk 7 and the driven disk (9) A roller shaft variable device installed to be rotatable about a rotation shaft C positioned on a straight line connecting two points in contact with each other, and rotating the rotation shaft of the roller 11 about the rotation shaft C. 13) is provided.

The pull toroidal, which is the stepless transmission mechanism 5, is also called ON-CENTER TYPE TOROIDAL, and the rotating shaft, in which the rotating shaft of the roller 11 is rotated, has the roller 11, the drive disk 7, and the driven member as described above. On the two contact point connecting lines of the disk 9, the rotation axis is a mechanism which is distinguished from the HALF TOROIDAL which is an OFF-CENTER TYPE which is shifted to one side from the connecting line.

The full toroidal has a merit that the change ratio of the transmission ratio can be realized very broadly compared to the half toroidal, whereas the pull toroidal is somewhat durable due to the spin due to the relative rotation occurring at the contact point of the roller, the driving disk and the driven disk. This has the disadvantage of falling.

For reference, the roller shaft variable device 13 is an actuator capable of rotating the rotating shaft of the roller 11 about the rotating shaft, it can be configured as a device such as a motor and a reducer, and known in the art Can be used.

On the other hand, between the driven disk 9 and the output shaft (OUTPUT) is provided with a power interruption mechanism 15 configured to connect or cut off the power.

The rotating shaft of the driven disk 9 is provided with a drive gear 17 formed to transmit power to the output shaft (OUTPUT), the output shaft (OUTPUT) is driven gear 19 is meshed with the drive gear (17) It is provided, the power control mechanism 15 is installed to intermittent the power between the driven disk 9 and the drive gear 17 on the rotating shaft of the driven disk (9).

Of course, other configurations, such as having the power control mechanism 15 to the output shaft (OUTPUT) will be possible, the power control mechanism 15 is a friction clutch, dog clutch, synchronous engagement device, friction band, magnetic Appropriate ones such as clutches may be used.

A clutch 21 is provided between the input shaft INPUT and the power supply device 3 to intermittently supply the power from the power supply device 3 to the input shaft INPUT.

In the present embodiment, the power supply device 3 is made of an engine which is an internal combustion engine, the clutch 21 comprises a clutch disk 25 is installed to be in contact with the flywheel 23 of the engine, The drive disk 7 has a structure connected to the clutch cover 27 forming a hollow shaft through which the input shaft INPUT penetrates while surrounding the clutch disk 25.

That is, the installation structure of the clutch disk 25 and the flywheel 23 is the same as the conventional clutch mechanism, but in the present embodiment, the clutch cover 27 causes the drive disk 7 to be attached to the flywheel 23. There is a difference to perform the role of the hollow shaft to transmit the rotational force by connecting, such a configuration has the advantage to enable the configuration of a compact powertrain while maximizing the conventional manual transmission clutch mechanism.

1 to 7 of the present invention illustrates that the transmission mechanism of the transmission unit 1 is composed of a synchronous engagement type that is engaged after synchronization using the key and the synchronizer ring, in addition to the transmission mechanism of the transmission unit 1 It may also be configured by another mechanism such as a dog clutch.

In the present embodiment of Figs. 1 to 7, the shifting unit 1 is configured as a synchronous engagement type shifting mechanism, and the shifting unit 1 has a gear stage of 1 to 5 gears and an R gear. Doing.

The operation of the present invention configured as described above will be described with reference to FIGS. 3 to 7. For reference, FIG. 7 illustrates the R stage driving state, which is the reverse stage, and further illustrates the reverse idler gear 35 which is omitted in FIGS. 1 to 6.

FIG. 3 shows the engine starting, and the engine is started by cranking the engine with the starting motor 29 in a state where both the clutch 21 and the power control mechanism 15 are shut off. Therefore, the rotational force of the engine is transmitted only to the driven disk 9 via the drive disk 7 and the roller 11 in a state where no power is transmitted to the input shaft INPUT or the output shaft OUTPUT.

Of course, if the transmission unit 1 does not connect any shift stage at the start, the clutch 21 may be started even in the connected state.

If the clutch 21 is blocked in the above-described state, the first gear stage can be formed by the 1-2-step synchronizing device 31, and the clutch 21 is formed in the state where the first gear stage is formed. When connected, the first stage driving state can be realized as shown in FIG. 4 together with the start of the vehicle.

In FIG. 4, power from the engine is transmitted to the input shaft INPUT through the clutch 21, and then, while the first gear is transmitted to the output shaft OUTPUT through a first gear shift gear pair, the differential device ( 33) to drive wheels.

At this time, the power control mechanism 15 is maintained in a blocked state, the power through the drive disk 7 and the driven disk 9 is not transmitted to the output shaft (OUTPUT).

FIG. 5 illustrates an intermediate process in which the gear shift is performed from the first gear shift gear to the second gear shift gear. The power control mechanism 15 is connected while the clutch 21 is blocked, so that the power from the engine is controlled by the input shaft ( INPUT is transmitted to the output shaft (OUTPUT) through the drive disk (7), roller (11) and driven disk (9) to prevent a torque drop during shifting.

In this case, the speed ratio formed by the drive disk 7 and the driven disk 9 together with the roller 11 may match the rotational speed of the output shaft OUTPUT in the state where the driven disk 9 is in a single speed shift stage. The output shaft (OUTPUT) in the two-speed shift state from the state is adjusted to the state that can be adjusted, the roller shaft variable drive 13 to adjust the inclination of the roller 11 to adjust the desired speed ratio By forming continuously, the reduction of torque generated by the torque transmitted to the input shaft INPUT by the clutch 21 in the process of shifting from the first stage to the second stage is prevented, as well as the current shift stage and the target shift. Ensure a smooth connection between the stages.

As described above, while the clutch 21 is blocked and the power control mechanism 15 is connected, the engine power is supplied by bypass to the output shaft OUTPUT through the driving disk 7 and the driven disk 9, The 1-2 stage synchronization matching device 31 releases the first stage and completes the engagement to the second stage.

After the engagement of the two-speed stage as described above, if the power control mechanism 15 is blocked while engaging the clutch 21, a two-stage driving state as shown in FIG.

In FIG. 6, the power from the engine is regulated at two speed shift stages between the input shaft INPUT and the output shaft OUTPUT via the clutch 21, and is supplied to the driving wheels through the differential device 33. Power transmitted from the engine to the driven disk 9 is in a state of being interrupted by the power control mechanism 15.

As described above, the continuous power supply to the output shaft OUTPUT by the drive disk 7 and the roller 11 and the driven disk 9 during the shift from the first gear to the second gear is carried out between the remaining gears. The same principle applies to the shifting, in particular in the shift between the lower stages, such as between the 1st and 2nd stages, as well as in the shifting between the upper stages, such as between the 4th and 5th stages, even in the overdrive shifting stage. And the driven disk 9 can compensate for the power while adjusting the rotation speed of the output shaft of the current gear stage and the target gear stage without permission, so that the torque decrease during shifting is prevented smoothly within the entire gear shift range of the transmission. It becomes possible to form a stable shift feeling.

On the other hand, Figure 7 illustrates the power transmission situation when the reverse, by connecting the reverse idler gear 35 between the input shaft (INPUT) and the output shaft (OUTPUT) in a state in which the vehicle is stopped, so that the reverse shift stage is implemented. have.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

One; Transmission
3; Power supply
5; Unauthorized delivery mechanism
7; Drive disk
9; Driven disk
11; roller
13; Roller Shaft Variable Device
15; Power control mechanism
17; Drive gear
19; Driven gear
21; clutch
23; flywheel
25; Clutch disc
27; Clutch cover
29; Starting motor
31; 1-2 single acting bellows
33; Differential
35; Backward idler gear
INPUT; Input shaft
OUTPUT; Output shaft
A; Rotating shaft
C; [0035]

Claims (8)

A transmission unit 1 having a plurality of transmission mechanisms for implementing different gear ratios between the input shaft INPUT and the output shaft OUTPUT;
It is installed between the power supply device (3) and the output shaft (OUTPUT) for providing power to the input shaft (INPUT) of the transmission unit 1, the power from the power supply device (3) to the output shaft (OUTPUT) It comprises a stepless transmission mechanism (5) configured to transmit at a stepless speed ratio;
The stepless delivery mechanism 5
A drive disk 7 connected to the rotation shaft of the power supply device 3;
A driven disk 9 spaced apart to correspond to the drive disk 7 and rotatably installed in a concentric axis, and connected to the output shaft OUTPUT;
The rollers are installed to contact the drive disk 7 and the driven disk 9 at the same time and vary the inclination of the rotating shaft so that power transmission is performed at an infinite speed ratio between the drive disk 7 and the driven disk 9 ( Pulltoroidal, including 11);
Automated manual transmission of the vehicle, characterized in that consisting of. The method according to claim 1,
It is provided with a power interruption mechanism (15) configured to connect or disconnect power between the driven disk (9) and the output shaft (OUTPUT)
Wherein the automatic transmission is a vehicle automatic transmission. The method according to claim 2,
A drive gear 17 formed on the rotating shaft of the driven disk 9 to transmit power to the output shaft OUTPUT;
The output shaft (OUTPUT) is provided with a driven gear (19) engaged with the drive gear (17);
The power control mechanism 15 is installed so as to intercept the power between the driven disk 9 and the drive gear 17 on the rotating shaft of the driven disk 9.
Wherein the automatic transmission is a vehicle automatic transmission. The method according to claim 2,
A clutch 21 is provided between the input shaft INPUT and the power supply device 3 to intermittently supply the power from the power supply device 3 to the input shaft INPUT.
Wherein the automatic transmission is a vehicle automatic transmission. The method of claim 4,
The power supply device 3 comprises an engine which is an internal combustion engine;
The clutch (21) comprises a clutch disc (25) installed to be in contact with the flywheel (23) of the engine;
The drive disk 7 is connected to the clutch cover 27 forming a hollow shaft through which the input shaft (INPUT) penetrates while surrounding the clutch disk 25 outside.
Wherein the automatic transmission is a vehicle automatic transmission. The method according to claim 2,
The drive disc 7 and the driven disc 9 are arranged such that grooves into which the roller 11 is inserted face each other;
The rotating shaft of the roller 11 is installed so that the inclined state with respect to the rotating shaft of the drive disk 7 and the driven disk 9 is variable;
The rotating shaft of the roller (11) is installed to be rotatable about a rotating shaft located on a straight line connecting two points where the roller (11), the drive disk (7) and the driven disk (9) contact;
A roller shaft variable device (13) for rotating the rotating shaft of the roller (11) about the rotating shaft;
And an automatic manual transmission for a vehicle. The method according to any one of claims 1 to 6,
The transmission mechanism of the transmission part 1 is configured of a synchronous engagement type that is engaged after synchronization using a key and a synchronizer ring.
Wherein the automatic transmission is a vehicle automatic transmission. The method according to any one of claims 1 to 6,
The shift mechanism of the shift section 1 is constituted by a dog clutch
Wherein the automatic transmission is a vehicle automatic transmission.

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