DE102016213709A1 - Multi-speed transmission - Google Patents

Abstract

A multistage transmission with an input shaft axis (I) and an output shaft axis (II) is proposed, which are arranged offset in relation to each other, wherein at least one first shaft (1) is arranged as a drive (An) coaxial with the input shaft axis (I), wherein at least one second Shaft (2) as output (Ab) coaxial with the output shaft axis (II) is arranged, wherein five further shafts (3, 4, 5, 6, 7) are provided, wherein a first spur gear (ST1) and a second spur gear (ST2) and a first planetary gear set (RS1) and a second planetary gear set (RS2) are provided, wherein six switching elements (A, A1, B, C, D, D1, E, F) are provided so that at least seven forward gears (G1, G2, G3 , G4, G5, G6, G7) and at least one reverse gear (R) are switchable, wherein the first shaft (1) with a first element of the first Planentenradsatzes (RS1) and with a third element of the second planetary gear set (RS2) is connectable, wherein the first shaft (1) with a third element of the first planetary gear set (RS1) and with a first element of the second planetary gear set (RS2) is connectable and wherein the second shaft (2) with a second element of the first planetary gear set (RS1) and with a second element of the second planetary gear set (RS2) connected is.

Description

The present invention relates to a multi-speed transmission having an input shaft axis of a first shaft as a drive and an output shaft axis of a second shaft as output, which are arranged offset in axial direction to each other, wherein five further waves are provided. Furthermore, two spur gears and two planetary gearsets and six shift elements are provided, so that at least seven forward gears and at least one reverse gear can be realized.

For example, from the document DE 10 2011 079 720 A1 is a multi-step transmission known, with only six forward gears and one reverse gear can be realized.

The present invention is based on the object to propose a multi-speed transmission of the type described above, which is as cost-effective as possible with maximum gear number and has the least possible space requirement.

This object is achieved by the features of claim 1, wherein advantageous embodiments of the dependent claims and the description and the drawings.

Thus, a multi-stage transmission with an input shaft axis and an output shaft axis is proposed, which are arranged, for example, for a front or rear transverse arrangement in a vehicle off-axis to each other. The multi-speed transmission is thus preferably carried out with a lateral output. A first, connected as a drive, for example, with the vehicle engine or connectable shaft is arranged coaxially with the input shaft axis, wherein a second shaft is arranged as an output coaxial with the output shaft axis, the z. B. with an output differential Diff or the like can be coupled. Further, five further shafts and a first spur gear and a second spur gear are provided to communicate with each other the elements associated with the input shaft axis and the output shaft axis. Further, a first planetary gear and a second planetary gear and at least six switching elements are provided so that at least seven forward gears and at least one reverse gear can be switched.

In the nevertheless a small space and a good efficiency having multi-speed transmission is further provided that the first shaft with a first element of the first Planentenradsatzes and with a third element of the second planetary gear set is connectable, wherein the first shaft with a third element of the first Planentenradsatzes and is connectable to a first element of the second Planentenradsatzes and wherein the second shaft is connected to a second element of the first Planentenradsatzes and with a second element of the second Planentenradsatzes.

The proposed multi-speed transmission thus comprises only two Planetenradsatzebenen and two Stirnradstufen and six switching elements, wherein for realizing the gear stages simultaneously two of the switching elements are closed or activated. Regardless of the various design variants of the multi-speed transmission results in a total compact design with low component load and low gear losses and good gear efficiency and also a good translation series, with a structurally simple connection of at least one electric machine for hybridization of the multi-speed transmission is possible. One of the spur gear stages is preferably suitable for axially parallel connection of the electric machine. It is also possible that, if necessary, a coaxial connection of the electrical machine z. B. is provided on the first shaft.

However, if an even larger translation or a space reasons greater center distance between the electric machine and the input and output shaft axes are desired, also a further translation stage or an intermediate gear can be provided for connecting the electric machine. If the electric machine is firmly translated to the drive, all internal combustion engine gears can also be electrically realized.

The multistage transmission or the first shaft of the multistage transmission, for example, be preceded by a torsional vibration decoupling unit. In the case of a hybridization, an additional switching element is preferably positioned between the electric machine and the internal combustion engine as a separating clutch, with which the internal combustion engine or the drive motor of the vehicle can be decoupled from the first shaft. In this way, both pure combustion engine driving and purely electric driving is possible. In the case of hybridization, a sixth switching element is preferably suitable as an internal starting element (IAE).

As switching elements both friction and form-fitting switching elements can be used. Preferably, due to their characteristics, in particular a first switching element designed as a brake or a first alternative of the first switching element and / or a second switching element designed as a brake and / or the Disconnect be executed as a form-locking claw switching element.

In the present invention, both planetary gear sets can be designed as a minus planetary gear set. The first planetary gear set can also be designed as a plus planetary gear set. A minus planetary gear set can preferably be converted into a positive planetary gear set when the planet carrier and the ring gear connection on this wheel set is interchanged and the amount of stand ratio is increased by one. This means for those skilled in the art that in a negative planetary gear set, a first element as a sun gear, a second element as a planet carrier or web and a third element are designed as a ring gear. In the case of a positive planetary gear set, however, it applies that a first element is designed as a sun gear, a second element as a ring gear, and a third element as a web or planet gear carrier. Based on this information, for example, a proposed negative planetary gear set can be converted in the multi-stage transmission according to the invention in a positive planetary gear.

A minus planetary gear set is known to have on its planet gear rotatably mounted planetary gears, which mesh with the sun gear and the ring gear of this planetary gear, so that the ring gear rotates at fixed planet carrier and rotating sun gear in the direction opposite to Sonnenraddrehrichtung. A plus planetary gear set is known to be rotatably mounted on its planet and rotatably mounted in meshing inner and outer planetary gears, the sun gear meshing with the planetary gears and the ring gear of this planetary gear with the outer planetary gears, so that the ring gear with held planet carrier and rotating sun gear in the direction of Sonnenraddrehrichtung same direction turns.

A particularly axial space-saving design is realized in that the two planetary gear sets are arranged radially one above the other. Here, a structurally simple connection of the stacked planetary gear sets can be realized in that the elements to be connected are designed as a common component. In contrast, if a radial space-saving design is desired, the two planetary gear sets can also be arranged axially next to each other.

Hereinafter, the present invention will be further explained with reference to the drawings. Show it:

1 a schematic view of a possible embodiment of a multi-speed transmission according to the invention with radially nested planetary gear sets;

2 a view of a switching matrix of in 1 illustrated embodiment variant;

3 a schematic view of another embodiment of the embodiment of the multi-speed transmission according to 1 with an alternative arrangement position of a first switching element on the output shaft axis;

4 a view of a switching matrix of in 3 illustrated embodiment;

5 a schematic view of the embodiment of the multi-speed transmission according to 3 with an alternative arrangement position of the fourth switching element on the output shaft axis;

6 a view of a switching matrix of in 5 illustrated embodiment;

7 a schematic view of the embodiment of the multi-speed transmission according to 1 with an off-axis arranged, electric machine;

8th a schematic view of the embodiment of the multi-speed transmission according to 5 with an off-axis arranged, electric machine;

9 a schematic view of the embodiment of the multi-speed transmission according to 1 with axially juxtaposed Planetenradsätzen exemplary of all embodiments;

10 a schematic view of the embodiment according to 9 with a first planetary gear set as a plus planetary gear set and a second planetary gear set as a minus planetary gear train exemplarily for all embodiments; and

11 a schematic view of the embodiment of the multi-speed transmission according to 1 with a coaxial connection of an electrical machine by way of example for all embodiments.

In the 1 to 11 are a possible embodiment of a multi-speed transmission according to the invention and corresponding alternative embodiments exemplified. The various embodiments of the embodiment can also be combined with each other, but for the sake of simplicity only shown as examples. In the 1 to 8th such as 11 the planetary gear sets RS1, RS2 are shown radially interleaved by way of example. In the 9 and 10 are the Planetary gear sets RS1, RS2 shown as an example axially next to each other. Based on the above statements regarding the assignment of the individual elements in minus and plus planetary gear sets, the competent expert can convert a plus planetary gear in a minus planetary gear or vice versa as needed. For the expert is based on the embodiment according to 1 in the 10 Exemplary for all versions, a first planetary gear set RS1 as a plus planetary gear set and a second planetary gear set RS2 shown as a minus planetary gear set. Furthermore, according to the embodiment variant according to FIG 1 in 11 an example of a coaxial connection of an electric machine EM shown for all versions.

Irrespective of the respective embodiments, the proposed multistage transmission comprises an input shaft axis I and an output shaft axis II which are arranged offset in the axial direction or axially parallel to one another, wherein a first shaft 1 is arranged as a drive to coaxial with the input shaft axis I. A wave 2 is arranged as an output from coaxial to the output shaft axis II, wherein the five other waves 3 . 4 . 5 . 6 . 7 depending on the design, both coaxial with the input shaft axis 1 or can be arranged to the output shaft axis II. For example, in the embodiments according to 1 . 3 . 7 . 9 . 10 and 11 is a fourth wave each 4 the input shaft axis 1 assigned during the fourth wave 4 in the embodiments according to 5 and 8th the output shaft axis II is assigned. For example, a third wave 3 , a fifth wave 5 , a sixth wave 6 and a seventh wave 7 assigned in all versions of the output shaft axis II.

Further, a first spur gear ST1 and a second spur gear ST2 is provided, each z. B. a Stirnradpaar include. The first spur gear stage ST1 and the second spur gear stage ST2 preferably have different ratios. In addition, a first planetary gear set RS1 and a second planetary gear set RS2 are provided, which are arranged either axially adjacent or radially nested and six switching elements A, A1, B, C, D, D1, E, F are assigned, the z. B. allow releasable connections between elements or waves, so that by their operation at least seven forward gears G1, G2, G3, G4, G5, G6, G7 and at least one reverse gear R are switchable.

In the proposed multi-speed transmission is the first wave 1 connectable to a first element of the first planetary gearset RS1 and to a third element of the second planetary gearset RS2. In addition, the first wave 1 connectable to a third element of the first planetary gearset RS1 and to a first element of the second planetary gearset RS2. In addition, the second wave 2 connected to a second element of the first planetary gear set RS1 and to a second element of the second planetary gearset RS2.

Here is the first wave 1 via the first spur gear ST1 and via the fourth shifting element D or via a first alternative of the fourth shifting element D1 and via a fourth shaft 4 and about a fifth wave 5 connectable to the first element of the first planetary gearset RS1 and to the third element of the second planetary gearset RS2. Further, the first wave 1 via the second spur gear ST2 and via the third shaft 3 and via a sixth switching element F and a seventh shaft 7 connectable to the first element of the second planetary gear set RS2. In addition, the first wave 1 via the second spur gear ST2 and via the third shaft 3 as well as via a fifth switching element E and via a sixth shaft 6 connectable to the third element of the first planetary gearset RS1.

Below is the in 1 illustrated embodiment of the multi-speed transmission described with reference to radially nested planetary gear sets RS1, and RS2. The drive on or the first shaft 1 is in the closed state of the fourth switching element D via the fourth wave 4 as well as the first spur gear ST1 and the fifth shaft 5 is connected to the first element or the sun gear SR1 of the first planetary gear set RS1 and to the third element or the ring gear HR2 of the second planetary gearset RS2. In the embodiment shown here, the sun gear SR1 or the first element of the first planetary gear set RS1 and the ring gear HR2 or the third element of the second planetary gear set RS2 are preferably designed as a common component SR1 / HR2. This common component serves to couple the planetary gear sets RS1 and RS2 arranged radially one behind the other, the second planetary gearset RS2 being arranged radially inward and the first planetary gearset RS1 being arranged radially outwards. For example, this common component SR1 / HR2 can have internal teeth and external teeth. There are also other embodiments conceivable. The fourth switching element D is a coupling of the input shaft axis 1 assigned and connects in the closed state, the first wave 1 with the fourth wave 4 , Further, the first wave 1 via the second spur gear ST2 and via the third shaft 3 and in the closed state of the sixth switching element F and the seventh shaft 7 connected to the first element or the sun gear SR2 of the second planetary gearset RS2. Here, the sixth switching element F is assigned as a coupling of the output shaft axis II and connects in closed state the third wave 3 with the seventh wave 7 , In addition, the first wave 1 via the second spur gear ST2 and via the third shaft 3 and in the closed state of the fifth switching element E via the sixth shaft 6 connected to the third element or the ring gear HR1 of the first planetary gearset RS1. Here, the fifth switching element E is assigned as a coupling of the output shaft axis II and connects the third shaft 3 with the sixth wave 6 , In addition, the second wave 2 or the output Ab fixedly connected to the second element or the planet carrier PT1 of the first planetary gear set RS1 and to the second element or planet carrier PT2 of the second planetary gear set RS2. A first designed as a brake switching element A is assigned to the input shaft axis I and connects in the closed state, the fourth wave 4 with the housing 0 , A second designed as a brake switching element B is associated with the output shaft axis II and connects in the closed state, the sixth wave 6 with the housing 0 , A third executed as a brake switching element C is associated with the output shaft axis II and connects in the closed state, the seventh shaft 7 with the housing 0 , In 2 is the switching matrix of the in 1 shown wheel set shown.

In the 3 illustrated alternative embodiment differs from the embodiment according to 1 in that the arrangement position of the first switching element A is changed. The first alternative of the first switching element A1 is now assigned to the output shaft axis II and connects as a brake, the fifth wave 5 with the housing 0 , In 4 the corresponding circuit diagram is shown.

In 5 is an alternative embodiment of the in 3 shown embodiment and differs in that the arrangement position of the fourth switching element D is changed. The first alternative of the fourth switching element D1 is assigned as a coupling of the output shaft axis II and connects in the closed state, the fourth wave 4 with the fifth wave 5 , The corresponding circuit diagram is in 6 shown.

In the 7 illustrated embodiment differs from the embodiment according to 1 in that a hybrid variant is shown. For this purpose, an electric machine EM is provided, the drive shaft 8th is arranged axially parallel to the input shaft axis I and the output shaft axis II, wherein the drive shaft 8th the electric machine EM is exemplarily engaged with its drive pinion with the second spur gear ST2.

In the 8th The illustrated embodiment differs from the embodiment according to 5 in that a hybrid variant is shown. For this purpose, an electric machine EM is provided, the drive shaft 8th is arranged axially parallel to the input shaft axis I and the output shaft axis II, wherein the drive shaft 8th the electric machine EM is exemplarily engaged with its drive pinion with the first spur gear ST1.

By the above-described embodiments and variants of the multi-speed transmission kinematically nothing is changed. These are each exemplified and can be combined with each other.

Regardless of the embodiment and its embodiments will be apparent from the circuit diagrams shown 2 . 4 , and 6 in that the first forward gear G1 is switchable with the first switching element A closed or the first alternative of the first switching element A1 closed and with the sixth switching element F closed, that the second forward gear G2 is closed when the first switching element A is closed or the first alternative of the first switching element A1 and closed switchable fifth switching element E is switchable, that the third forward gear G3 is closed when the fifth switching element E and closed sixth switching element F, that the fourth forward gear G4 is closed with the third switching element C and closed fifth switching element E, that the fifth forward gear G5 when the fourth switching element D is closed or when the first alternative of the fourth switching element D1 is closed and the fifth switching element E is closed, it is possible to switch that the sixth forward gear G6 is closed when the third switching element C is closed and vi is closed erten switching element D or in the closed first alternative of the fourth switching element D1 is switchable, and that the seventh forward gear G7 is closed when the fourth switching element D or closed first alternative of the fourth switching element D1 and the sixth switching element F closed. Furthermore, the reverse gear R is switchable with the second switching element B closed and with the sixth switching element F closed.

In the hybrid variants, it is advantageous that the first wave 1 can be connected to the vehicle engine via an additional switching element or a separating clutch K0. In this way, the vehicle engine of the electric machine EM is also decoupled.

In 9 is the in 1 illustrated embodiment of the multi-speed transmission according to the invention exemplary of all Embodiments with two axially juxtaposed Planetenradsätzen RS1 and RS2 shown, wherein the planetary gear sets RS1 and RS2 are each designed as a minus planetary gear set.

In 10 is the in 1 shown embodiment of the multi-speed transmission according to the invention shown by way of example for all versions with a planetary gearset shown as a plus planetary gearset RS1, wherein the second planetary gear set RS2 is designed as a minus planetary gear set. The planetary gear sets RS1 and RS2 are arranged axially next to one another. The first element of the first planetary gear set RS1 is designed as a sun gear SRI, the second element of the first planetary gear set RS1 as a ring gear HR1 and the third element as a planet carrier PT1. Consequently, a reversal of the Hohlrad- and Planetenradträgeranbindung is made in the first planetary gearset RS1.

In 11 is the in 1 illustrated embodiment with an electric machine EM exemplified, which is coaxial with the input shaft axis I and the first wave 1 is arranged. The planetary gear sets RS1 and RS2 are again radially nested. Furthermore, the drive shaft or the rotor 8th the electric machine EM preferably fixed to the first shaft 1 connected. Alternatively, a detachable connection could also be provided. The coaxial connection of the electric machine EM to the input shaft axis I is representative of the embodiment according to 1 represented, wherein the coaxial arrangement is also possible in the other embodiments.

Preferably, the first switching element A or the first alternative of the first switching element A1 and / or the second switching element B and / or the separating coupling K0 can be designed as a form-locking switching element, for example as a switching claw, synchronization or the like.

LIST OF REFERENCE NUMBERS

0

casing

1

first wave

2

second wave

3

third wave

4

fourth wave

5

fifth wave

6

sixth wave

7

seventh wave

8th

Drive shaft or rotor of the electric machine

EM

electric machine

I

Input shaft axis

II

Output shaft axis

ST1

first spur gear

ST2

second spur gear

RS1

first planetary gear set

RS2

second planetary gear set

G1

first forward

G2

second forward gear

G3

third forward speed

G4

fourth forward gear

G5

fifth forward gear

G6

sixth forward gear

G7

seventh forward gear

R

reverse gear

A

first switching element

A1

first alternative of the first switching element

B

second switching element

C

third switching element

D

fourth switching element

D1

first alternative of the fourth switching element

e

fifth switching element

F

sixth switching element

SR1

Sun gear first planetary gear set

PT1

Planetary gear first planetary gear set

HR1

Ring gear first planetary gear set

SR2

Sun gear second planetary gear set

PT2

Planet carrier second planetary gear set

HR2

Ring gear second planetary gear set

SR1 / HR2

as a common component for coupling RS1 and RS2

Diff

output differential

K0

separating clutch

At

drive

From

output

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102011079720 A1 [0002]

Claims (23)

Multi-stage transmission having an input shaft axis (I) and an output shaft axis (II), which are arranged offset in relation to each other, wherein at least one first shaft ( 1 ) is arranged as a drive (An) coaxial with the input shaft axis (I), wherein at least one second shaft ( 2 ) is arranged as the output (Ab) coaxial with the output shaft axis (II), wherein five further waves ( 3 . 4 . 5 . 6 . 7 ), wherein a first spur gear stage (ST1) and a second spur gear stage (ST2) and a first planetary gear set (RS1) and a second planetary gear set (RS2) are provided, wherein six switching elements (A, A1, B, C, D, D1 , E, F) are provided so that at least seven forward gears (G1, G2, G3, G4, G5, G6, G7) and at least one reverse gear (R) are shiftable, wherein the first shaft ( 1 ) is connectable to a first element of the first planetary gear set (RS1) and to a third element of the second planetary gear set (RS2), wherein the first shaft ( 1 ) is connectable to a third element of the first planetary gear set (RS1) and to a first element of the second planetary gear set (RS2) and wherein the second shaft ( 2 ) is connected to a second element of the first planetary gear set (RS1) and to a second element of the second planetary gear set (RS2). Multi-step transmission according to claim 1, characterized in that the first shaft ( 1 ) via the first spur gear stage (ST1) and via the fourth shifting element (D) or via a first alternative of the fourth shifting element (D1) and via a fourth shaft (FIG. 4 ) and a fifth wave ( 5 ) is connectable to the first element of the first planetary gear set (RS1) and to the third element of the second planetary gear set (RS2). Multi-step transmission according to claim 1 or 2, characterized in that the first shaft ( 1 ) via the second spur gear stage (ST2) and via the third shaft ( 3 ) and a sixth switching element (F) and a seventh wave ( 7 ) Is connectable to the first element of the second planetary gear set (RS2). Multi-step transmission according to one of the preceding claims, characterized in that the first shaft ( 1 ) via the second spur gear stage (ST2) and via the third shaft ( 3 ) and via a fifth switching element (E) and via a sixth wave ( 6 ) is connectable to the third element of the first planetary gear set (RS1). Multi-step transmission according to one of the preceding claims, characterized in that the first planetary gear set (RS1) and the second planetary gear set (RS2) are arranged axially next to one another. Multi-speed transmission according to one of claims 1 to 4, characterized in that the first planetary gear set (RS1) and the second planetary gear set (RS2) are arranged radially one above the other. Multi-speed transmission according to claim 6, characterized in that the first, radially outer planetary gear set (RS1) and the second, radially inner planetary gear set (RS2) via the ring gear (HR2) of the second planetary gear set (RS2) and the sun gear (SR1) of the first Planetary gear set (RS1) are interconnected. Multi-speed transmission according to claim 7, characterized in that the sun gear (SR1) of the first planetary gear set (RS1) and the ring gear (HR2) of the second planetary gear set (RS2) form a common component (SR1 / HR2). Multi-step transmission according to one of the preceding claims, characterized in that a first switching element (A) designed as a brake is associated with the input shaft axis (I) and in the closed state the fourth shaft ( 4 ) with the housing ( 0 ) connects. Multi-stage transmission according to one of claims 1 to 8, characterized in that a first alternative of the first switching element (A1) of the output shaft axis (II) is associated and in the closed state, the fifth wave ( 5 ) with the housing ( 0 ) connects. Multi-speed transmission according to one of the preceding claims, characterized in that a second designed as a brake switching element (B) of the output shaft axis (II) is associated with and in the closed state, the sixth wave ( 6 ) with the housing ( 0 ) connects. Multi-step transmission according to one of the preceding claims, characterized in that a third switching element (C) designed as a brake is associated with the output shaft axis (II) and in the closed state the seventh shaft ( 7 ) with the housing ( 0 ) connects. Multi-step transmission according to one of the preceding claims, characterized in that a fourth switching element (D) designed as a clutch is associated with the input shaft axis (I) and in the closed state the first shaft ( 1 ) with the fourth wave ( 4 ) connects. Multi-step transmission according to one of claims 1 to 12, characterized in that a first alternative of the fourth switching element (D1) is assigned as a coupling of the output shaft axis (II) and in the closed state, the fourth wave ( 4 ) with the fifth wave ( 5 ) connects. Multi-stage transmission according to one of the preceding claims, characterized in that a fifth switching element (E) designed as a clutch is associated with the output shaft axis (II) and in the closed state the third shaft ( 3 ) with the sixth wave ( 6 ) connects. Multi-step transmission according to one of the preceding claims, characterized in that a sixth switching element (F) designed as a clutch is associated with the output shaft axis (II) and in the closed state the third shaft ( 3 ) with the seventh wave ( 7 ) connects. A multistep transmission according to one of the preceding claims, characterized in that at least one electric machine (EM) is provided, the drive shaft ( 8th ) is arranged axially parallel to the input shaft axis (I) and the output shaft axis (II), wherein the drive shaft ( 8th ) of the electric machine (EM) is connected directly or via a further translation with the first spur gear (ST1) or the second spur gear (ST2). Multi-stage transmission according to one of the preceding claims, characterized in that at least one electric machine (EM) is provided whose drive shaft or rotor ( 8th ) is arranged coaxially to the input shaft axis (I), wherein the drive shaft or the rotor ( 8th ) of the electric machine (EM) directly or via another translation with the first shaft ( 1 ) is connected or connectable. Multi-step transmission according to one of the preceding claims, characterized in that the first shaft ( 1 ) Is connectable via a separating clutch (K0) with the vehicle engine. Multi-step transmission according to one of the preceding claims, characterized in that the first switching element (A) or a first alternative of the first switching element (A1) and / or the second switching element (B) and / or the separating clutch (K0) is designed as a form-locking switching element. Multi-step transmission according to one of the preceding claims, characterized in that for switching the first forward gear (G1), the first switching element (A) or the first alternative of the first switching element (A1) and the sixth switching element (F) are closed, that for switching the second Forward gear (G2) the first shift element (A) or the first alternative of the first shift element (A1) and the fifth shift element (E) are closed, that for switching the third forward gear (G3), the fifth shift element (E) and the sixth shift element ( F) are closed, that for switching the fourth forward gear (G4), the third switching element (C) and the fifth switching element (E) are closed, that for switching the fifth forward gear (G5), the fourth switching element (D) or the first alternative of fourth switching element (D1) and the fifth switching element (E) are closed, that for switching the sixth forward gear (G6), the third switching element (C) u the fourth switching element (D) or the first alternative of the fourth switching element (D1) are closed, that for switching the seventh forward gear (G7) the fourth switching element (D) or the first alternative of the fourth switching element (D1) and the sixth switching element ( F) are closed, and that for switching the reverse gear (R), the second switching element (B) and the sixth switching element (F) are closed. Multi-step transmission according to one of the preceding claims, characterized in that the first element of the first and / or the second planetary gear set (RS1, RS2) is a sun gear (SRI, SR2) when the first and / or the second planetary gear set (RS1, RS2) is designed as a negative planetary gear set, that the second element of the first and / or the second planetary gear set (RS1, RS2) is a planet carrier (PT1, PT2), if the first and / or the second planetary gear set (RS1, RS2) as minus Planetary gear is executed, and that the third element of the first and / or the second planetary gear set (RS1, RS2) is a ring gear (HR1, HR2), when the first and / or the second planetary gear set (RS1, RS2) designed as a minus planetary gear set is. Multi-speed transmission according to one of the preceding claims, characterized in that the first element of the first Planentenradsatzes (RS1) is a sun gear (SRI), when the first planetary gear set (RS1) is designed as a plus planetary gear, that the second element of the first planetary gear set (RS1 ) is a ring gear (HR1) when the first planetary gear set (RS1) is designed as a plus planetary gear set and that the third element of the first planetary gear set (RS1) is a planet carrier (PT1), if the first planetary gear set (RS1) as a plus planetary gear set is executed.

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