KR0162804B1 - The gear train of a 6-speed automatic transmission for a vehicle - Google Patents

Abstract

A 6-speed automatic transmission for a vehicle which can design an automatic transmission having a very short total length and can simplify the configuration thereof and simultaneously use the output of the engine by multi- For the purpose of providing the gear train of; By combining the second simple planetary gear set in the ring gear outer shaft of the first simple planetary gear set and radially in such a way that the ring gears of the first simple planetary gear set can also act as the sun gear of the second simple planetary gear set, And at least two elements of each of the operating elements are selected and set as the input element and the reaction force element, while maintaining the operating elements of the first planetary gear set and the second planetary gear set. Clutch means operable to selectively engage the ring gear of the first simple planetary gear set and the planetary carrier and ring gear of the second simple planetary gear set; Brake means for operating the sun gear and the ring gear of the first simple planetary gear set and the ring gear and the planetary carrier of the second simple planetary gear set, respectively, to act as reaction force elements; Speed automatic transmission for a vehicle.

Description

Gear trains for 6-speed automatic transmissions for vehicles

FIG. 1 is a configuration diagram of a gear train according to the present invention. FIG.

FIG. 2 is a diagram for explaining the operational explanation of the present invention with a lever analysis method; FIG.

FIG. 3 is an operation table of friction elements for each shift stage for obtaining the gear ratios of the sixth forward gear and the reverse reverse gear of the second gear train.

The present invention relates to a gear train of a six-speed automatic transmission for a vehicle, and more particularly, to an automatic transmission having a very short overall length by applying a compound planetary gear set in combination in a radial direction, And more particularly to a gear train of a six-speed automatic transmission for a vehicle, which can effectively use the output of an engine by multi-stepping the gear stages.

BACKGROUND ART [0002] In general, a vehicular automatic transmission includes a transmission control unit that automatically controls a transmission ratio according to a running speed of a vehicle and a variation in load.

The above-mentioned transmission control unit controls a plurality of friction elements installed in the gear train to operate or non-operating to select any one of the three elements (sun gear, ring gear, and planet carrier) of the planetary gear set as input elements, Is selected as a reaction force element to adjust the output stage revolution speed.

Examples of the compound planetary gear device used in such an automatic transmission for a vehicle include a rabbit type, a planetary gear device of a type of a simpson, a type of a planetary gear device, and a planetary gear device of a type of a two-

In addition, the above-described complex planetary gear device may have a structure in which the planetary carriers are connected to each other so as to be used as a transmission means of a vehicle, or may have a structure in which the planetary carrier and the ring gear are directly connected with each other, A structure in which gears are directly coupled to each other, that is, two planetary gear sets are axially connected.

As a result, the length in the axial direction becomes long and the total length of the transmission becomes long. Therefore, in the case of the transverse front wheel drive type automatic transmission, in particular, it is very disadvantageous in terms of mounting performance.

Further, when the vehicle automatic transmission fails to sufficiently utilize the performance of the engine in a high output engine, fuel economy and power performance and driving performance become poor, as is well known.

Therefore, it is suggested that a high-output engine can attain a higher transmission ratio in order to fully utilize the performance of the engine.

However, in the conventional automatic transmission, at least two or more planetary gear sets must be provided because the input elements are limited to any one of them, so that the manufacturing cost for manufacturing the planetary gear set is greatly increased and the internal configuration is also very complicated Has a problem.

Accordingly, there is a need for a method of simplifying the gear stage so that the output of the engine can be used more efficiently while the configuration is simpler.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide an automatic transmission having a very short overall length by applying a compound planetary gear set in a radial direction, Speed automatic transmission in which the output of the engine can be effectively utilized by simplifying and simplifying the speed change stage.

In order to achieve the above object, the present invention is characterized in that the ring gear of the first simple planetary gear set is surrounded by a second simple planetary gear set, so that the ring gear of the first simple planetary gear set is also engaged with the sun gear of the second simple planetary gear set So that at least two elements at each of the speed change stages of these operating elements are selectively set as the input element and the reaction force element so as to perform the shifting in the first forward speed 6 speed reverse 1 speed, A planetary gear set; Clutch means operable to selectively engage the ring gear of the first simple planetary gear set and the planetary carrier and ring gear of the second simple planetary gear set; Brake means for operating the sun gear and the ring gear of the first simple planetary gear set and the ring gear and the planetary carrier of the second simple planetary gear set, respectively, to act as reaction force elements; Speed automatic transmission for a vehicle.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a gear train of an embodiment according to the present invention in which the power generated from the engine 2 is torque-converted through the torque converter 4 and input to the complex planetary gear set 6, do.

At this time, the compound planetary gear set 6 is input to at least one element by the selective operation of the clutch means comprising a plurality of clutches 8, 10, 12, and a plurality of brakes 14 ) 18 (20), at least one element acts as a reaction force element in the operation region except for the fourth forward speed, so that the shift is performed.

The torque converter 4, which converts the torque generated from the engine 2, comprises a pump impeller 22 rotating directly on the crankshaft of the engine 2; Turbine liners (24) arranged to face the pump impeller (22) and rotated together by the oil to be jetted; And a stator (26) disposed between the pump impeller (22) and the turbine runner (24) to change the flow of oil to increase the rotational force of the pump impeller (22).

Accordingly, when the engine rotates, the oil filled in the torque converter 4 is spouted from the pump impeller 22 and supplied to the turbine runner 24 to drive the turbine runner 24 and then flow into the stator 26 .

The oil introduced into the stator 26 changes its direction and then flows into the pump impeller 22 again. At this time, the rotation of the stator 26 causes the turbine runner The rotational force of the pump impeller 22 and the rotational force of the pump impeller 22 are different from each other, so that torque conversion is performed.

The complex planetary gear set 6 receiving the power from the torque converter 4 is disposed in the same line on the rear side of the input shaft 28 connected to the turbine runner 24 of the torque converter 4. [

The complex planetary gear set 6 consists of a first and a second simple planetary gear set 30 (32) radially combined, which is arranged outside the ring gear 34 of the first simple planetary gear set 30 Another second simple planetary gear set 32 is enclosed so that the ring gear 34 of the first simple planetary gear set 30 can act as the sun gear of the second simple planetary gear set 32. [

The composite planetary gear set 6 is configured to rotate the sun gear 36 and the planetary carrier 38 and the ring gear 34 of the first simple planetary gear set 30 and the planetary gear set 32 of the second simple planetary gear set 32, The fifth operating element including the carrier 40 and the ring gear 42 and the radial combination of the first and second planetary gear sets 30 and 32 can greatly reduce the length in the axial direction .

The first clutch 8 serving as the clutch means for transmitting the power of the engine 2 to the compound planetary gear set 6 is connected to the input shaft 28 and the ring gear 42 of the second simple planetary gear set 32 The second clutch 10 is interposed between the input shaft 28 and the planetary carrier 40 of the second simple planetary gearset 32 and the third clutch 12 is interposed between the input shaft 28 and the input shaft 28, Is interposed between the ring gears (34) of the first simple planetary gear set (30).

So that the elements connected thereto by the selective operation of the clutches 8, 10 and 12 are optional or the two elements act simultaneously as input elements.

And the first brake 14 forming the brake means are interposed between the sun gear 36 of the first simple dominant gear set 32 and the transmission housing 44 and the second brake 16 is interposed between the second simple planetary gear set 32 and the second simple planetary gear set 32. [ And the third brake 18 is interposed between the ring gear 42 of the set 32 and the transmission housing 44 and the third brake 18 is interposed between the planetary carrier 40 of the second simple planetary gear set 32 and the transmission housing 44 And the fourth brake 20 is interposed between the ring gear 34 of the first simple planetary gear set 30 and the transmission housing 44 so that the elements can act as selective reaction elements, An output gear 46 is attached to the distal end of the planetary carrier 38 of the simple planetary gear set 30 so as to be able to act as an output element.

The first, second and third clutches 8, 10 and 12 forming the clutch means in the above can be used as multi-plate clutches and include first, second, third and fourth brakes 14 and 16 ) 18 (20), a conventional band brake can be used.

In the gear train of the present invention as described above, the shifting operation is performed while the friction elements are operated as shown in the friction element operation table of FIG. 2. The gear shifting process will be described while viewing the operation element table and the lever interpretation table of FIG. 3 .

The first node N1 on the lever L is connected to the sun gear 36 of the first simple planetary gear set 30 and the second node N2 of the first simple planetary gear set 30 is connected to the first The planetary carrier 38 of the simple planetary gear set 30, the third node N3 of the ring gear 34 of the first simple planetary gear set 30 and the fourth node N4 of the planetary gear set 30 of the second simple planetary gear set 30, The planetary carrier 40 of the first planetary gear set 32 and the fifth node N5 are set to the ring gear 42 of the second simple planetary gear set 32. [

The elements for the node are set by a combination of a complex planetary gear set, and the related art is known, and a detailed description thereof will be omitted.

Taking this into consideration, the operation of the forward first speed will be described. In the first speed, the first clutch 8 and the first brake 14 are controlled in operation.

The power of the input shaft 28 rotated by the engine 2 is then transmitted to the ring gear 42 of the second simple planetary gear set 32 by the operation of the first clutch 8 as an input element, The operation of the first brake 14 causes the sun gear 36 of the first simple planetary gear set 30 to act as a reaction force element so that the shifting of the first speed gear is performed to shift the planetary gear set 30 of the first simple planetary gear set 30, So that the output is made through the carrier 32.

3, a straight line L1 connecting a first input speed line S1 input to the fifth node N5 and a first node N1 acting as a reaction force element is connected to an output element The line closest to the second node N2 becomes the first output speed line D1.

That is, it can be seen that the output rotation speed becomes much smaller than the input rotation speed, so that the deceleration is performed at the speed ratio of the first speed.

When the vehicle speed and the throttle opening degree increase in the first-speed state as described above, the operation of the first clutch 8 is released in the trans control unit, and the second clutch 10 is operated.

Then, according to the operation of the second clutch 10, the input element is converted into the planetary carrier 40 of the second simple planetary gear set 32, so that the shift of the second speed is achieved.

Referring to FIG. 3, the second input speed line S2 of the fourth node N4 and the straight line L2 connecting the first node N1 acting as a reaction force element The line closest to the second node N2 as the output element becomes the output speed line D2 of the second speed, so that the output is performed at a faster speed than the first speed.

When the vehicle speed and the throttle opening degree increase in the state of the second speed as described above, the operation of the second clutch 10 is released and the third clutch 12 is operated in the trans control unit.

Then, according to the operation of the third clutch 12, the input element is converted into the ring gear 34 of the first simple planetary gear set 30, so that the shift of the third speed is achieved.

Referring to FIG. 3, the third input speed line S3 of the third node N3 and the straight line L3 connecting the first node N1 acting as the reaction force element The line closest to the second node N2 as the output element becomes the output speed line D3 of the third speed and the output is performed at a speed faster than the second speed.

When the vehicle speed and the throttle opening degree increase in the state of the third speed as described above, the transmission control unit releases the operation of the first brake 14 and operates the first clutch 8.

Then, the reaction force is released in the state of the input of the third speed, and the ring gear 42 of the second simple planetary gear set 32 according to the operation of the first clutch 8 is operated as the input element, The input is made to have two input elements, so that the fourth gear is shifted to the fourth gear while being directly connected due to the nature of the planetary gear set.

Referring to FIG. 3, the fourth input speed line S1 is input to the fifth node N5 and the third input speed N3 of the third node N3, which functions as another input element, The line connecting the straight line L4 connecting the line S3 to the second node N2 being the output element becomes the fourth output speed line D4.

When the vehicle speed and throttle opening degree further increase in the fourth-speed state as described above, the transmission control unit releases the operation of the first clutch 8 operating in the fourth speed and disengages the second brake 16 from the operation control .

The ring gear 42 of the second simple planetary gear set 32 is rotated by the action of the second brake 16 in the state in which the input via the ring gear 34 of the first simple planetary gear set 30 is performed, And the fifth speed shift operation is performed.

Referring to FIG. 3, the fifth speed N5 of the third node N3 is connected to the input speed line S3 and the fifth node N5 acting as a reaction force element. And the line connected to the second node N2 is the fifth-speed output speed D5.

That is, the fifth speed is in an overdrive state in which the output is faster than the input speed.

When the vehicle speed and throttle opening degree further increase in the fifth-speed state, the transmission control unit releases the operation of the second brake 16 operating in the fifth speed and operates the third brake 18 .

The operation of the third brake 18 in the state of the input through the ring gear 34 of the first simple planetary gear set 30 allows the planetary carrier 34 of the second simple planetary gear set 32 to act as a reaction element The sixth-speed gear shifting is performed.

3, the straight line L6 connecting the third input speed line S3 of the third node N3 and the fourth line N4 acting as the reaction force element is output And the line connected to the second node N2 is the sixth-speed output speed line D6.

Of course, even in the sixth speed, it is an overdrive state as in the fifth speed.

Then, while the driver turns the selector lever to the reverse range (R) for backward movement, the transaxle control unit automatically controls the first clutch 8 and the fourth brake 20.

Then, the operation of the first clutch 8 causes the input via the ring gear 42 of the second simple planetary gear set 32, and at the same time, by the operation of the fourth brake 20, The ring gear 34 of the first planetary gear set 30 acts as a reaction force element so that the reverse shift is performed and the output is made through the planetary carrier 38 of the first simple planetary gear set 30 as the output element.

3, the straight line L7 connecting the first input speed line S1 of the fifth node N5 and the third node N3 acting as the reaction force element is referred to as the second And the line connecting closest to the node N2 is the reverse output speed line R. [

As described above, according to the present invention, it is possible to design an automatic transmission having a very short overall length by applying a compound planetary gear set that is combined in the radial direction, and the configuration thereof can be simplified.

Further, the output of the engine can be utilized more efficiently by densifying the speed change stage into six forward speeds and one reverse speed.

Claims (4)

By combining the second simple planetary gear set in the ring gear outer shaft of the first simple planetary gear set and radially in such a way that the ring gears of the first simple planetary gear set can also act as the sun gear of the second simple planetary gear set, And at least two elements of each of the operating elements are selected and set as the input element and the reaction force element, while maintaining the operating elements of the first planetary gear set and the second planetary gear set. Clutch means operable to selectively engage the ring gear of the first simple planetary gear set and the planetary carrier and ring gear of the second simple planetary gear set; Brake means for operating the sun gear and the ring gear of the first simple planetary gear set and the ring gear and the planetary carrier of the second simple planetary gear set, respectively, to act as reaction force elements; And a gear train of a six-speed automatic transmission for a vehicle. 2. The planetary gear set according to claim 1, wherein the clutch means for transmitting the power of the engine to the complex planetary gear set comprises: a first clutch interposed between the ring gear of the second simple planetary gear set and the input shaft; A second clutch interposed between the planetary carrier of the second simple planetary gear set and the input shaft; A third clutch interposed between the ring gear of the first simple planetary gear set and the input shaft; And a gear train of a six-speed automatic transmission for a vehicle. 2. The braking device of claim 1, wherein the braking means comprises: a first brake interposed between the sun gear of the first simple planetary gear set and the transmission housing; A second brake interposed between the ring gear of the second simple planetary gear set and the transmission housing; A third brake interposed between the planetary carrier of the second simple planetary gear set and the transmission housing; A fourth brake disposed between the ring gear of the first simple planetary gear set and the transmission housing; And a gear train of a six-speed automatic transmission for a vehicle. 2. The gear train of claim 1, wherein a clutch multi-plate clutch forming the clutch means is used, and a brake band brake for forming the brake means is used.